论文信息 - Reactivity of surface species in heterogeneous catalysts probed by in situ X-ray absorption techniques. - 字舞流文

Reactivity of surface species in heterogeneous catalysts probed by in situ X-ray absorption techniques.

(Article begins on next page) Anyone can freely access the full text of works made available as "Open Access". Works made available under a Creative Commons license can be used according to the terms and conditions of said license. Use of all other works requires consent of the right holder (author or publisher) if not exempted from copyright protection by the applicable law. Availability: This is the author's manuscript

Carlo Lamberti | Silvia Bordiga | Jeroen A van Bokhoven | Elena Groppo | C. Lamberti | S. Bordiga | E. Groppo | J. V. van Bokhoven | G. Agostini | Giovanni Agostini

[1] N. Binsted,et al. A rapid, exact curved-wave theory for EXAFS calculations , 1984 .

[2] W. L. Holstein,et al. Impregnation of alumina with copper chloride-modeling of impregnation kinetics and internal copper profiles , 1983 .

[3] M J Rosseinsky,et al. Design, chirality, and flexibility in nanoporous molecule-based materials. , 2005, Accounts of chemical research.

[4] K. Lillerud,et al. FTIR adsorption studies of H2O and CH3OH in the isostructural H-SSZ-13 and H-SAPO-34: formation of H-bonded adducts and protonated clusters. , 2005, The journal of physical chemistry. B.

[5] L. Mussmann,et al. Characterization and catalytic investigation of Fe-ZSM5 for urea-SCR , 2007 .

[6] Piero Ugliengo,et al. Can Cu+-Exchanged Zeolites Store Molecular Hydrogen? An Ab-Initio Periodic Study Compared with Low-Temperature FTIR , 2004 .

[7] T. Shiraiwa. The Theory of the Fine Structure of the X-ray Absorption Spectrum, II. , 1958 .

[8] J. Rehr,et al. Comparison between X-ray Absorption Spectroscopy, Anomalous Wide Angle X-ray Scattering, Anomalous Small Angle X-ray Scattering, and Diffraction Anomalous Fine Structure Techniques Applied to Nanometer-Scale Metallic Clusters , 1997 .

[9] S. Bordiga,et al. Orthorhombic and monoclinic silicalites: structure, morphology, vibrational properties and crystal defects. , 1994 .

[10] A. Kahn-Harari,et al. Spectroscopic characterization of chromium (IV, V, VI) in Cr:Li2MSiO4 (M=Mg,Zn) , 2003 .

[11] A. Longo,et al. Distorted f.c.c. arrangement of gold nanoclusters: a model of spherical particles with microstrains and stacking faults , 2008 .

[12] F. Ribeiro,et al. Determination of CO, H2O and H2 coverage by XANES and EXAFS on Pt and Au during water gas shift reaction. , 2010, Physical chemistry chemical physics : PCCP.

[13] R. Frahm. New method for time dependent x-ray absorption studies , 1989 .

[14] S. Bare,et al. An in situ x-ray absorption spectroscopic cell for high temperature gas-flow measurements , 1998 .

[15] J. Klinowski,et al. EXAFS studies of iron-substituted zeolite ZSM-5 , 1992 .

[16] Xinwen Guo,et al. Enhanced Catalytic Oxidation by Hierarchically Structured TS-1 Zeolite , 2010 .

[17] J. Rehr,et al. Comment on "Operando DRIFTS and XANES Study of Deactivating Effect of CO2 on a Ce0.8Cu0.2O2 CO-PROX Catalyst" , 2011 .

[18] T. Schmitt,et al. Resonant inelastic x-ray scattering at the oxygen K resonance of NiO: nonlocal charge transfer and double-singlet excitations. , 2006, Physical review letters.

[19] F. Cotton,et al. After 155 Years, A Crystalline Chromium Carboxylate with a Supershort Cr−Cr Bond , 2000 .

[20] C. Lamberti,et al. Formation of Nonplanar CuI(CO)3Tricarbonyls on CuI–ZSM-5:An FTIR Study at 80 K , 1998 .

[21] J. Grunwaldt,et al. On the presence of Fe(IV) in Fe-ZSM-5 and FeSrO3-x --unequivocal detection of the 3d4 spin system by resonant inelastic X-ray scattering. , 2006, The journal of physical chemistry. B.

[22] A. Dent,et al. Tracing the conversion of aurichalcite to a copper catalyst by combined X-ray absorption and diffraction , 1991, Nature.

[23] C. Lamberti,et al. Effect of Selective Area Growth mask width on Multi-Quantum-Well Electroabsorption Modulated Lasers investigated by synchrotron radiation X-ray microprobe , 2012 .

[24] R. Prins,et al. Analysis of in situ EXAFS data of supported metal catalysts using the third and fourth cumulant. , 2006, Physical chemistry chemical physics : PCCP.

[25] Dean R. Haeffner,et al. Mapping the chemical states of an element inside a sample using tomographic x-ray absorption spectroscopy , 2003 .

[26] A. Corma,et al. Direct Synthesis and Characterization of Hydrophobic Aluminum-Free Ti−Beta Zeolite , 1998 .

[27] Parr,et al. Development of the Colle-Salvetti correlation-energy formula into a functional of the electron density. , 1988, Physical review. B, Condensed matter.

[28] T. Tyliszczak,et al. An in-situ cell for characterization of solids by soft X-ray absorption , 2004 .

[29] Michael Stöcker,et al. Methanol-to-hydrocarbons: catalytic materials and their behavior 1 Dedicated to my wife Wencke Ophau , 1999 .

[30] A. MacDowell,et al. 0.1–10 keV soft X-ray beamline for surface EXAFS studies at the Daresbury SRS , 1986 .

[31] P. Eisenberger,et al. Extended x-ray absorption fine structure—its strengths and limitations as a structural tool , 1981 .

[32] B. Weckhuysen,et al. A quantitative diffuse reflectance spectroscopy study of supported chromium catalysts , 1993 .

[33] Y. Joly. Calculating X-ray absorption near-edge structure at very low energy. , 2003, Journal of synchrotron radiation.

[34] C. H. Shaw,et al. The Fine Structure of the X-Ray Absorption Limits of Bromine and Chlorine , 1940 .

[35] J. Rehr,et al. Ab initio curved-wave x-ray-absorption fine structure. , 1991, Physical review. B, Condensed matter.

[36] M. Janousch,et al. High energy resolution off-resonant spectroscopy at sub-second time resolution: (Pt(acac)2) decomposition. , 2012, Chemical communications.

[37] N. Mizuno,et al. Removal of nitrogen monoxide through a novel catalytic process. 2. Infrared study on surface reaction of nitrogen monoxide adsorbed on copper ion-exchanged ZSM-5 zeolites , 1992 .

[38] S. Che,et al. Palladium nanoparticles supported on MOF-5: A highly active catalyst for a ligand- and copper-free Sonogashira coupling reaction , 2010 .

[39] A. Dent,et al. Structural characterisation of solution species implicated in the palladium-catalysed Heck reaction by Pd K-edge X-ray absorption spectroscopy: palladium acetate as a catalyst precursor , 2002 .

[40] B. Weckhuysen,et al. Integrated laser and electron microscopy correlates structure of fluid catalytic cracking particles to Brønsted acidity. , 2012, Angewandte Chemie.

[41] Elina Färm,et al. Ultra-high resolution zone-doubled diffractive X-ray optics for the multi-keV regime. , 2011, Optics express.

[42] A. Dent,et al. Scanning and energy dispersive EXAFS studies of ethyl transmetallation in an alkene oligomerisation catalyst , 1996 .

[43] L. Azároff. THEORY OF EXTENDED FINE STRUCTURE OF X-RAY ABSORPTION EDGES , 1963 .

[44] A. E. Palomares,et al. On the researching of a new zeolite structure for the selective catalytic reduction of NO: The possibilities of Cu-exchanged IM5 , 2000 .

[45] Tadashi Matsushita,et al. A Fast X-Ray Absorption Spectrometer for Use with Synchrotron Radiation , 1981 .

[46] J. Klinowski,et al. Gallium EXAFS and solid-state NMR studies of Ga-substituted MFI-type zeolites , 1990 .

[47] J. Rehr,et al. Atomic-XAFS and XANES , 1995 .

[48] S. Nguyen,et al. Selective bifunctional modification of a non-catenated metal-organic framework material via "click" chemistry. , 2009, Journal of the American Chemical Society.

[49] Chuan-De Wu,et al. A homochiral porous metal-organic framework for highly enantioselective heterogeneous asymmetric catalysis. , 2005, Journal of the American Chemical Society.

[50] M. Fröba,et al. A new in situ cell for XAFS investigations. , 2004, Journal of synchrotron radiation.

[51] C. Lamberti,et al. Synchrotron study of oxygen depletion in a Bi-2212 whisker annealed at 363 K. , 2009, Journal of synchrotron radiation.

[52] H. Dalton,et al. A stopped-flow kinetic study of soluble methane mono-oxygenase from Methylococcus capsulatus (Bath). , 1989, The Biochemical journal.

[53] Robert Schlögl,et al. CO Formation/Selectivity for steam reforming of methanol with a commercial CuO/ZnO/Al2O3 catalyst , 2004 .

[54] Sangeeta,et al. First results from a dispersive EXAFS beamline developed at INDUS-2 synchrotron source at RRCAT, Indore, India , 2009 .

[55] T. Kawai,et al. Design of a high-temperature and high-pressure liquid flow cell for x-ray absorption fine structure measurements under catalytic reaction conditions. , 2008, The Review of scientific instruments.

[56] O. Kröcher,et al. The State of the Art in Selective Catalytic Reduction of NOx by Ammonia Using Metal‐Exchanged Zeolite Catalysts , 2008 .

[57] A. Frenkel,et al. Modeling the structure and composition of nanoparticles by extended X-ray absorption fine-structure spectroscopy. , 2011, Annual review of analytical chemistry.

[58] M. Labrador,et al. Sorption of Ni by "lithiophorite-asbolane" intermediates in Moa Bay lateritic deposits, eastern Cuba , 2010 .

[59] M. Fleet,et al. Surface modification study of borate materials from B K-edge X-ray absorption spectroscopy , 1998 .

[60] M. Herskowitz,et al. NO oxidation kinetics on iron zeolites: influence of framework type and iron speciation , 2004 .

[61] B. Weckhuysen,et al. REDOX BEHAVIOR AND DISPERSION OF SUPPORTED CHROMIUM CATALYSTS , 1995 .

[62] J. Simpson,et al. Origin of the Exceptional Negative Thermal Expansion in Metal-Organic Framework-5 Zn 4 O(1,4-benzenedicarboxylate) 3 , 2008 .

[63] Craig M. Brown,et al. Highly-selective and reversible O2 binding in Cr3(1,3,5-benzenetricarboxylate)2. , 2010, Journal of the American Chemical Society.

[64] R. Nuzzo,et al. The emergence of nonbulk properties in supported metal clusters: negative thermal expansion and atomic disorder in Pt nanoclusters supported on gamma-Al2O3. , 2009, Journal of the American Chemical Society.

[65] F. Kapteijn,et al. Amino-based metal-organic frameworks as stable, highly active basic catalysts , 2009 .

[66] Xinwen Guo,et al. Highly efficient epoxidation of propylene to propylene oxide over TS-1 using urea + hydrogen peroxide as oxidizing agent , 2008 .

[67] J. Lercher,et al. Metal organic frameworks based on Cu2+ and benzene-1,3,5-tricarboxylate as host for SO2 trapping agents , 2005 .

[68] J. Garćıa,et al. XANES in condensed systems , 1988 .

[69] P. L. Hansen,et al. A combined QEXAFS/XRD method for on-line, in situ studies of catalysts: Examples of dynamic measurements of Cu-based methanol catalysts , 1993 .

[70] C. Roth,et al. Ethanol Oxidation on Carbon-Supported Pt, PtRu, and PtSn Catalysts Studied by Operando X-ray Absorption Spectroscopy , 2010 .

[71] R. P. Townsend,et al. A new cell for the collection of combined EXAFS/XRD data in situ during solid/liquid catalytic reactions , 1997 .

[72] B. Gates,et al. Hexairidium Clusters Supported on γ-Al2O3: Synthesis, Structure, and Catalytic Activity for Toluene Hydrogenation , 1996 .

[73] J. Tranquada,et al. Extended x-ray—absorption fine-structure study of anharmonicity in CuBr , 1983 .

[74] Qing Min Wang,et al. Nanopore Structure and Sorption Properties of Cu-BTC Metal-Organic Framework , 2003 .

[75] Akio Kotani,et al. Resonant inelastic x-ray scattering spectra for electrons in solids , 2001 .

[76] D. Koningsberger,et al. Reactivity of Fe-binuclear complexes in over-exchanged Fe/ZSM5, studied by in situ XAFS spectroscopy - part 1: Heat treatment in He and O2. , 2003 .

[77] M. Allendorf,et al. Force Field Validation for Molecular Dynamics Simulations of IRMOF-1 and Other Isoreticular Zinc Carboxylate Coordination Polymers , 2008 .

[78] J. Grunwaldt,et al. Axial variation of the oxidation state of Pt-Rh/Al2O3 during partial methane oxidation in a fixed-bed reactor: An in situ X-ray absorption spectroscopy study , 2005 .

[79] Ankudinov,et al. Multiple-scattering calculations of x-ray-absorption spectra. , 1995, Physical review. B, Condensed matter.

[80] E. Kondratenko,et al. Mechanism and kinetics of direct N2O decomposition over Fe-MFI zeolites with different iron speciation from temporal analysis of products. , 2006, The journal of physical chemistry. B.

[81] A. Witkowska,et al. An XAS experimental approach to study low Pt content electrocatalysts operating in PEM fuel cells. , 2009, Physical chemistry chemical physics : PCCP.

[82] K. Lillerud,et al. Electronic and vibrational properties of a MOF-5 metal-organic framework: ZnO quantum dot behaviour. , 2004, Chemical communications.

[83] A. Frenkel,et al. Carbon-Supported IrNi Core–Shell Nanoparticles: Synthesis, Characterization, and Catalytic Activity , 2011 .

[84] Gabor A. Somorjai,et al. Advancing the frontiers in nanocatalysis, biointerfaces, and renewable energy conversion by innovations of surface techniques. , 2009, Journal of the American Chemical Society.

[85] F. H. Constable. The mechanism of catalytic decomposition , 1925 .

[86] C. Catlow,et al. STRUCTURE OF IRON-SUBSTITUTED ZSM-5 , 1995 .

[87] Sakura Pascarelli,et al. Turbo-XAS: dispersive XAS using sequential acquisition , 1999 .

[88] F. Neese,et al. Preference towards five-coordination in Ti silicalite-1 upon molecular adsorption. , 2013, Chemphyschem : a European journal of chemical physics and physical chemistry.

[89] Frank M. F. de Groot,et al. Multiplet effects in X-ray spectroscopy , 2005 .

[90] R. Lobo,et al. Identifying reaction intermediates and catalytic active sites through in situ characterization techniques. , 2010, Chemical Society reviews.

[91] W. Hall,et al. Stoichiometric catalytic decomposition of nitric oxide over copper-exchanged zeolite (CuZSM-5) catalysts , 1990 .

[92] A. Dent,et al. Application of stopped flow techniques and energy dispersive EXAFS for investigation of the reactions of transition metal complexes in solution: activation of nickel beta-diketonates to form homogeneous catalysts, electron transfer reactions involving iron(III) and oxidative addition to iridium(I). , 2003, Faraday discussions.

[93] F. D. Groot. Site-selective XAFS: a new tool for catalysis research , 2000 .

[94] Brent M. T. Lok,et al. Silicoaluminophosphate molecular sieves: another new class of microporous crystalline inorganic solids , 1984 .

[95] C. Lamberti,et al. Role of the Support in Determining the Vibrational Properties of Carbonyls Formed on Pd Supported on SiO2-Al2O3, Al2O3, and MgO , 2007 .

[96] M. Casaletto,et al. Metal-support and preparation influence on the structural and electronic properties of gold catalysts , 2006 .

[97] C. Lamberti,et al. Chromocene in porous polystyrene: an example of organometallic chemistry in confined spaces. , 2009, Physical chemistry chemical physics : PCCP.

[98] M. Couprie,et al. X radiation sources based on accelerators , 2008 .

[99] F. d’Acapito,et al. Local structure of [Cu(I)(CO)2]+ adducts hosted inside ZSM-5 zeolite probed by EXAFS, XANES and IR spectroscopies. , 2005, Physical chemistry chemical physics : PCCP.

[100] G. Pantaleo,et al. Metal-support interaction and redox behavior of Pt(1 wt %)/Ce0.6Zr0.4O2. , 2006, The journal of physical chemistry. B.

[101] C. Catlow,et al. A new furnace design for use in combined X-ray absorption and diffraction of catalysis and ceramics studies: formation from carbonate precursors of Cu, Co, Mn spinels for the oxidation of CO and the formation of PLZT, a piezoelectric ceramic , 1995 .

[102] Alexey A. Sokol,et al. QM/MM modelling of the TS-1 catalyst using HPCx , 2006 .

[103] K. Lillerud,et al. Ti-STT: a new zeotype shape selective oxidation catalyst. , 2011, Chemical Communications.

[104] D. Ramaker,et al. Nature of the metal-support interaction in supported Pt catalysts : Shift in Pt valence orbital energy and charge rearrangement , 2001 .

[105] J. Barker,et al. What is "liquid"? Understanding the states of matter , 1976 .

[106] S. Kitagawa,et al. Three‐Dimensional Framework with Channeling Cavities for Small Molecules: {[M2(4, 4′‐bpy)3(NO3)4]·xH2O}n (M Co, Ni, Zn) , 1997 .

[107] W. Hall,et al. FeZSM-5: A Durable SCR Catalyst for NOxRemoval from Combustion Streams , 1997 .

[108] C. Christensen,et al. Hierarchical zeolites: enhanced utilisation of microporous crystals in catalysis by advances in materials design. , 2008, Chemical Society reviews.

[109] S. Weigel,et al. The synthesis of molecular sieves from non-aqueous solvents , 1997 .

[110] N. Brookes,et al. Low energy electronic excitations in the layered cuprates studied by copper L3 resonant inelastic x-ray scattering. , 2004, Physical review letters.

[111] J. Rehr,et al. Parallel calculation of electron multiple scattering using Lanczos algorithms , 2002 .

[112] C. Rovira,et al. Coexistence of ferro- and antiferromagnetic interactions in a metal-organic radical-based (6,3)-helical network with large channels. , 2005, Chemical communications.

[113] S. Mukerjee,et al. Site-Specific vs Specific Adsorption of Anions on Pt and Pt-Based Alloys , 2007 .

[114] C. Lamberti,et al. Structural Characterization of Ti-Silicalite-1: A Synchrotron Radiation X-Ray Powder Diffraction Study , 1999 .

[115] C. Lamberti,et al. Determination of the Particle Size, Available Surface Area, and Nature of Exposed Sites for Silica-Alumina-Supported Pd Nanoparticles: A Multitechnical Approach , 2009 .

[116] K. Chapman,et al. Chasing changing nanoparticles with time-resolved pair distribution function methods. , 2012, Journal of the American Chemical Society.

[117] Weiguo Song,et al. The mechanism of methanol to hydrocarbon catalysis. , 2003, Accounts of chemical research.

[118] M. Shelef. Selective Catalytic Reduction of NOx with N-Free Reductants , 1995 .

[119] Heon-Jin Choi,et al. Magnetic and Electrical Properties of Single-Crystalline Mn-Doped Ge Nanowires , 2009 .

[120] H. Fjellvåg,et al. Structural changes and coordinatively unsaturated metal atoms on dehydration of honeycomb analogous microporous metal-organic frameworks. , 2008, Chemistry.

[121] Atsushi Itadani,et al. New insight into N2 adsorption and ion-exchange features of CuMFI with different Si/Al ratios , 2007 .

[122] K. Wieghardt,et al. Synthesis and Characterization of Mononuclear Octahedral Titanium(IV) Complexes Containing Ti:O, Ti(O2), and Ti(OCH3)x (x = 1-3) Structural Units , 1994 .

[123] J. V. van Bokhoven,et al. Three-coordinate aluminum in zeolites observed with in situ x-ray absorption near-edge spectroscopy at the Al K-edge: flexibility of aluminum coordinations in zeolites. , 2003, Journal of the American Chemical Society.

[124] T. Yashima,et al. Hydroxylation of Aromatics with Hydrogen Peroxide over Titanosilicates with MOR and MFI Structures: Effect of Ti Peroxo Species on the Diffusion and Hydroxylation Activity , 1998 .

[125] A. Marcelli,et al. Dispersive EXAFS apparatus at Frascati , 1992 .

[126] G. Dalba,et al. EXAFS Debye-Waller factor and thermal vibrations of crystals. , 1997, Journal of synchrotron radiation.

[127] L. Randaccio,et al. Cation‐site location in a natural chabazite , 1982 .

[128] F. Lytle,et al. Analysis of EXAFS data on bimetallic clusters , 1990 .

[129] A. Soldatov,et al. FitIt: New software to extract structural information on the basis of XANES fitting , 2007 .

[130] R. Kumar,et al. Ferrisilicate Analogs of Zeolites , 1991 .

[131] F. Lytle,et al. Structure of bimetallic clusters. Extended x‐ray absorption fine structure (EXAFS) studies of Pt–Ir clusters , 1982 .

[132] C. Louis,et al. Activation of oxygen on gold/alumina catalysts: in situ high-energy-resolution fluorescence and time-resolved X-ray spectroscopy. , 2006, Angewandte Chemie.

[133] P. Jacobs,et al. Factors influencing the catalytic activity of titanium silicalites in selective oxidations , 1991 .

[134] T. Paradellis,et al. Resonance strength measurements of the 27Al(p,γ)28Si reaction in the energy range Ep= 0.8–2.0 MeV , 1999 .

[135] Jens K. Nørskov,et al. A New Procedure for Particle Size Determination by EXAFS Based on Molecular Dynamics Simulations , 1993 .

[136] M. Fanciulli,et al. Coordination of boron and phosphorous in Borophosphosilicate glasses , 2003 .

[137] E. Stern,et al. Number of relevant independent points in x-ray-absorption fine-structure spectra. , 1993, Physical review. B, Condensed matter.

[138] A. Kahn-Harari,et al. XAS study of chromium in Li2MSiO4 (M=Mg, Zn) , 2003 .

[139] J. Hanson,et al. Rapid acquisition pair distribution function (RA-PDF) analysis. , 2003, cond-mat/0304638.

[140] Jens R. Rostrup-Nielsen,et al. Atom-Resolved Imaging of Dynamic Shape Changes in Supported Copper Nanocrystals , 2002, Science.

[141] M. Salvalaggio,et al. An ESR study of titanium-silicalite in presence of H2O2. , 2002, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.

[142] L. Broadbelt,et al. Elucidating steric effects on enantioselective epoxidation catalyzed by (salen)Mn in metal-organic frameworks , 2011 .

[143] Natoli,et al. X-ray-absorption spectroscopy and n-body distribution functions in condensed matter. I. Theory. , 1995, Physical review. B, Condensed matter.

[144] G. Tabacchi,et al. TS-1 from first principles. , 2009, The journal of physical chemistry. A.

[145] T. Tatsumi,et al. A novel titanosilicate with MWW structure: III. Highly efficient and selective production of glycidol through epoxidation of allyl alcohol with H2O2 , 2003 .

[146] J. Grunwaldt,et al. Continuous catalytic oxidation of solid alcohols in supercritical CO2: A parametric and spectroscopic study of the transformation of cinnamyl alcohol over Pd/Al2O3 , 2006 .

[147] S. Bhargava,et al. Adsorption of NO on Cu exchanged zeolites, an FTIR study: Effects of Cu levels, NO pressure, and catalyst pretreatment , 1996 .

[148] A. Becke. Density-functional thermochemistry. III. The role of exact exchange , 1993 .

[149] D. Ramaker,et al. Contribution of shape resonance and Pt–H EXAFS in the Pt L2,3 X-ray absorption edges of supported Pt particles: Application and consequences for catalyst characterization , 1999 .

[150] D. Keen. A comparison of various commonly used correlation functions for describing total scattering , 2001 .

[151] M. Bauer,et al. EXAFS as Powerful Analytical Tool for the Investigation of Organic–Inorganic Hybrid Materials , 2010 .

[152] S. Stoupin. Influence of Adsorbate-Free Atoms on Δ-XANES Signatures. , 2009, Journal of chemical theory and computation.

[153] P. Lee,et al. Ab initio calculations of amplitude and phase functions for extended x-ray absorption fine structure spectroscopy , 1979 .

[154] T Mairs,et al. Energy-dispersive absorption spectroscopy for hard-X-ray micro-XAS applications. , 2006, Journal of Synchrotron Radiation.

[155] A. Frenkel,et al. Anomalous lattice dynamics and thermal properties of supported size- and shape-selected Pt nanoparticles , 2010 .

[156] L. G. Parratt. ELECTRONIC BAND STRUCTURE OF SOLIDS BY X-RAY SPECTROSCOPY , 1959 .

[157] A. Dent,et al. Structure-performance relationships of Rh and RhPd alloy supported catalysts using combined EDE/DRIFTS/MS. , 2008, Faraday discussions.

[158] Bo Wang,et al. Highly efficient separation of carbon dioxide by a metal-organic framework replete with open metal sites , 2009, Proceedings of the National Academy of Sciences.

[159] A. Frenkel,et al. Combined in situ X-ray absorption and diffuse reflectance infrared spectroscopy: An attractive tool for catalytic investigations , 2011 .

[160] D. Nachtigallová,et al. Calculations of Site-Specific CO Stretching Frequencies for Copper Carbonyls with the ``Near Spectroscopic Accuracy'': CO Interaction with Cu+/MFI , 2003 .

[161] P. M. Len,et al. Multiple energy x-ray holography: Incident-radiation polarization effects , 1997 .

[162] G. Pirngruber,et al. An in situ X-ray absorption spectroscopy study of N2O decomposition over Fe-ZSM-5 prepared by chemical vapor deposition of FeCl3 , 2004 .

[163] J. Rehr,et al. Practical aspects of electron energy-loss spectroscopy (EELS) calculations using FEFF8. , 2007, Micron.

[164] A. Zecchina,et al. Spectroscopic Characterization of Silicalite and Titanium-Silicalite , 1989 .

[165] B. Weckhuysen,et al. Nonuniform catalytic behavior of zeolite crystals as revealed by in situ optical microspectroscopy. , 2007, Angewandte Chemie.

[166] D. Dingwell,et al. Effect of aluminum on Ti-coordination in silicate glasses: A XANES study , 2000 .

[167] John J. Rehr,et al. Limits and Advantages of X-ray Absorption Near Edge Structure for Nanometer Scale Metallic Clusters , 2003 .

[168] G. Spoto,et al. Silicalite characterization. 1. Structure, adsorptive capacity, and IR spectroscopy of the framework and hydroxyl modes , 1992 .

[169] S. Oyama,et al. Effect of composition and promoters in Au/TS-1 catalysts for direct propylene epoxidation using H2 and O2 , 2009 .

[170] P. Panagiotopoulou,et al. Effect of the nature of the support on the catalytic performance of noble metal catalysts for the water–gas shift reaction , 2006 .

[171] F. Vizza,et al. Hydrogenation of arenes over silica-supported catalysts that combine a grafted rhodium complex and palladium nanoparticles: evidence for substrate activation on Rh(single-site)-Pd(metal) moieties. , 2006, Journal of the American Chemical Society.

[172] D. Lützenkirchen-Hecht,et al. Piezo-QEXAFS: advances in time-resolved X-ray absorption spectroscopy. , 2001, Journal of synchrotron radiation.

[173] V. Petkov,et al. Element-specific structure of materials with intrinsic disorder by high-energy resonant x-ray diffraction and differential atomic pair-distribution functions: A study of PtPd nanosized catalysts , 2010 .

[174] Armin Feldhoff,et al. Molecular sieve membrane: supported metal-organic framework with high hydrogen selectivity. , 2010, Angewandte Chemie.

[175] M. I. Bell,et al. INCLUSION OF LOCAL STRUCTURE EFFECTS IN THEORETICAL X-RAY RESONANT SCATTERING AMPLITUDES USING AB INITIO X-RAY-ABSORPTION SPECTRA CALCULATIONS , 1998 .

[176] A. Beale,et al. Isolated Cu2+ ions: active sites for selective catalytic reduction of NO. , 2011, Chemical communications.

[177] P. Colavita,et al. Characterisation of heterogeneous catalysts by EXAFS , 1998 .

[178] R. Schoonheydt. UV-VIS-NIR spectroscopy and microscopy of heterogeneous catalysts. , 2010, Chemical Society reviews.

[179] Ping Liu,et al. Ternary Pt/Rh/SnO2 electrocatalysts for oxidizing ethanol to CO2. , 2009, Nature materials.

[180] F. d’Acapito,et al. CuI-Y and CuII-Y zeolites: a XANES, EXAFS and visible-NIR study , 1997 .

[181] M. Benfatto,et al. Geometrical fitting of experimental XANES spectra by a full multiple-scattering procedure. , 2001, Journal of synchrotron radiation.

[182] Peter Claus,et al. Identification of active sites in gold-catalyzed hydrogenation of acrolein. , 2003, Journal of the American Chemical Society.

[183] T. Root,et al. DFT Study of Solvent Coordination Effects on Titanium-Based Epoxidation Catalysts. Part Two: Reactivity of Titanium Hydroperoxo Complexes in Ethylene Epoxidation , 2003 .

[184] P. Jacobs,et al. Selective oxidation of methane by the bis(mu-oxo)dicopper core stabilized on ZSM-5 and mordenite zeolites. , 2005, Journal of the American Chemical Society.

[185] C. Lamberti,et al. Comparative IR-spectroscopic study of low-temperature H2 and CO adsorption on Na zeolites , 1994 .

[186] M. Fernández-García,et al. Redox behaviour of Pd-based TWCs under dynamic conditions: analysis using dispersive XAS and mass spectrometry. , 2005, Chemical communications.

[187] K. Lillerud,et al. Structural determination of a highly stable metal-organic framework with possible application to interim radioactive waste scavenging: Hf-UiO-66 , 2012 .

[188] X-ray-absorption fine structure in embedded atoms. , 1994, Physical review. B, Condensed matter.

[189] B. Weckhuysen,et al. Bis(mu-oxo)dicopper as key intermediate in the catalytic decomposition of nitric oxide. , 2003, Chemphyschem : a European journal of chemical physics and physical chemistry.

[190] B. Weckhuysen,et al. Intergrowth structure of zeolite crystals and pore orientation of individual subunits revealed by electron backscatter diffraction/focused ion beam experiments. , 2008, Angewandte Chemie.

[191] M. Fernández-García,et al. Operando DRIFTS and XANES Study of Deactivating Effect of CO2 on a Ce0.8Cu0.2O2 CO-PROX Catalyst , 2010 .

[192] J. Ross,et al. Mechanistic aspects of the steam reforming of methanol over a CuO/ZnO/ZrO2/Al2O3 catalyst , 1999 .

[193] M. Anpo,et al. Characterization of the Local Structure of the Vanadium Silicalite (VS-2) Catalyst and Its Photocatalytic Reactivity for the Decomposition of NO into N2 and O2 , 1999 .

[194] C. Grey,et al. Watching nanoparticles grow: the mechanism and kinetics for the formation of TiO2-supported platinum nanoparticles. , 2007, Journal of the American Chemical Society.

[195] L. Guczi,et al. Soft X-ray absorption spectroscopy in heterogeneous catalysis , 2001 .

[196] S. E. Malykhin,et al. Catalytic Role of O•– Radicals in the Low-Temperature Isotopic Exchange in Dioxygen , 2011 .

[197] G. Natta. Stereospezifische Katalysen und isotaktische Polymere , 1956 .

[198] G. Spoto,et al. Well defined CuI(NO), CuI(NO)2 and CuII(NO)X (X = O− and/or NO2−) complexes in CuI-ZSMS prepared by interaction of H-ZSM5 with gaseous CuCl , 1992 .

[199] D. Ramaker,et al. The atomic AXAFS and Delta(mu) XANES techniques as applied to heterogeneous catalysis and electrocatalysis. , 2010, Physical chemistry chemical physics : PCCP.

[200] Lamberti,et al. Neutron powder diffraction study of orthorhombic and monoclinic defective silicalite , 2000, Acta crystallographica. Section B, Structural science.

[201] C. Lamberti,et al. Hydroxyls nests in defective silicalites and strained structures derived upon dehydroxylation: vibrational properties and theoretical modelling , 2001 .

[202] C. Arean,et al. Low temperature CO adsorption on Na-ZSM-5 zeolites: An FTIR investigation , 1992 .

[203] Bert M. Weckhuysen,et al. Determining the active site in a catalytic process: Operando spectroscopy is more than a buzzword , 2003 .

[204] Kenji Sumida,et al. Carbon dioxide capture in metal-organic frameworks. , 2012, Chemical reviews.

[205] Hodgson,et al. General multiple-scattering scheme for the computation and interpretation of x-ray-absorption fine structure in atomic clusters with applications to SF6, GeCl4, and Br2 molecules. , 1992, Physical review. B, Condensed matter.

[206] A. Bell,et al. The local environment of Cu+ in Cu-Y zeolite and its relationship to the synthesis of dimethyl carbonate. , 2006, The journal of physical chemistry. B.

[207] J. Sinfelt,et al. X-ray absorption edge studies of the electronic structure of metal catalysts , 1993 .

[208] Nicolae Barsan,et al. The structure and behavior of platinum in SnO2-based sensors under working conditions. , 2011, Angewandte Chemie.

[209] C. Riekel,et al. Structural study of poly(L-lactic acid) spherulites. , 2004, Biomacromolecules.

[210] H. Fjellvåg,et al. An in situ high-temperature single-crystal investigation of a dehydrated metal-organic framework compound and field-induced magnetization of one-dimensional metal-oxygen chains. , 2005, Angewandte Chemie.

[211] A. Dent,et al. Identification of the surface species responsible for N2O formation from the chemisorption of NO on Rh/alumina. , 2007, Physical chemistry chemical physics : PCCP.

[212] C. Lamberti,et al. Adsorption properties of HKUST-1 toward hydrogen and other small molecules monitored by IR. , 2007, Physical chemistry chemical physics : PCCP.

[213] R. Frahm. QEXAFS: X-ray absorption studies seconds , 1989 .

[214] Seth M. Cohen,et al. Systematic functionalization of a metal-organic framework via a postsynthetic modification approach. , 2008, Journal of the American Chemical Society.

[215] Christian Bressler,et al. Ultrafast nonadiabatic dynamics of [Fe(II)(bpy)(3)](2+) in solution. , 2007, Journal of the American Chemical Society.

[216] F. D. de Groot,et al. The CTM4XAS program for EELS and XAS spectral shape analysis of transition metal L edges. , 2010, Micron.

[217] Stern,et al. Comparison of theoretical methods for the calculation of extended x-ray-absorption fine structure. , 1994, Physical review. B, Condensed matter.

[218] H. Padmore,et al. A ReflEXAFS apparatus for use with soft X-rays in the sub-4-keV energy range , 1995 .

[219] De Chen,et al. The effect of crystal size of SAPO-34 on the selectivity and deactivation of the MTO reaction , 1999 .

[220] F. Mauri,et al. XANES calculation with an efficient “non muffin-tin” method: application to the angular dependence of the Al K-edge in corundum , 2005 .

[221] J. Pérez-Pariente,et al. Characterization of Ga-substituted zeolite Beta by X-ray absorption spectroscopy , 2000 .

[222] B. Weckhuysen,et al. Surface Chemistry and Spectroscopy of Chromium in Inorganic Oxides. , 1996, Chemical reviews.

[223] L. Bonneviot,et al. Characterization of two different framework titanium sites and quantification of extra-framework species in TS-1 silicalites , 1997 .

[224] H. Topsøe,et al. Developments in operando studies and in situ characterization of heterogeneous catalysts , 2003 .

[225] Angelika Brückner,et al. Looking on Heterogeneous Catalytic Systems from Different Perspectives: Multitechnique Approaches as a New Challenge for In Situ Studies , 2003 .

[226] Z. Sobalík,et al. Redox catalysis over metallo-zeolites Contribution to environmental catalysis , 2003 .

[227] A. Dent,et al. Bringing time resolution to EXAFS: recent developments and application to chemical systems. , 2002, Chemical Society reviews.

[228] P. Glatzel,et al. Investigation of the valence electronic states of Ti(IV) in Ti silicalite-1 coupling X-ray emission spectroscopy and density functional calculations. , 2011, Physical chemistry chemical physics : PCCP.

[229] C. Lamberti,et al. Alumina-Supported Copper Chloride: 1. Characterization of Freshly Prepared Catalyst , 2000 .

[230] Gérard Férey,et al. Porous metal-organic-framework nanoscale carriers as a potential platform for drug delivery and imaging. , 2010, Nature materials.

[231] M. Anpo,et al. Preparation and characterization of unique inorganic-organic hybrid mesoporous materials incorporating arenetricarbonyl complexes [-C6H4M(CO)3-] (M = Cr, Mo). , 2005, Journal of the American Chemical Society.

[232] F. d’Acapito,et al. X-ray photoelectron spectroscopy and x-ray absorption near edge structure study of copper sites hosted at the internal surface of ZSM-5 zeolite: A comparison with quantitative and energetic data on the CO and NH3 adsorption , 2000 .

[233] W. Gates. Chapter 12.3 X-ray Absorption Spectroscopy , 2006 .

[234] W. Grünert,et al. Selective catalytic reduction of NO by ammonia over Fe-ZSM-5 catalysts , 1999 .

[235] W. Hall,et al. Studies of the changes occurring on reduction and reoxidation of CuY zeolites , 1992 .

[236] A Stein,et al. Using compound kinoform hard-x-ray lenses to exceed the critical angle limit. , 2007, Physical review letters.

[237] A. Nigam. RESEARCH NOTES: The Origin of Fine Structures in X-Ray Absorption Spectra of Ionic Solutions , 1955 .

[238] Yanfeng Yue,et al. Luminescent functional metal-organic frameworks. , 2012, Chemical Reviews.

[239] Multi-Technique In Situ Approach Towards the Study of Catalytic Solids at Work Using Synchrotron Radiation , 2009 .

[240] Omar M Yaghi,et al. The pervasive chemistry of metal-organic frameworks. , 2009, Chemical Society reviews.

[241] James E Marsch,et al. Diffraction anomalous fine structure: a new technique for probing local atomic environment , 1993 .

[242] F. Lytle,et al. Developments in Extended X-Ray Absorption Fine Structure Applied to Chemical Systems , 1979 .

[243] F. Kapteijn,et al. Visualizing the crystal structure and locating the catalytic activity of micro- and mesoporous ZSM-5 zeolite crystals by using in situ optical and fluorescence microscopy. , 2008, Chemistry.

[244] Gang Yang,et al. In situ magnetic resonance investigation of styrene oxidation over TS-1 zeolites. , 2004, Angewandte Chemie.

[245] D. Koningsberger,et al. EXAFS analysis of an Ir/γ-Al2O3 catalyst at elevated temperatures: evidence for a Gaussian pair distribution function , 2003 .

[246] B. Weckhuysen,et al. Operando surface spectroscopy--placing catalytic solids at work under the spotlight. , 2012, Physical chemistry chemical physics : PCCP.

[247] L. Kiwi-Minsker,et al. Monodispersed Pd Nanoparticles for Acetylene Selective Hydrogenation: Particle Size and Support Effects , 2008 .

[248] J. Grunwaldt,et al. Gold supported on Cu–Mg–Al and Cu–Ce mixed oxides: An in situ XANES study on the state of Au during aerobic alcohol oxidation , 2007 .

[249] A. Beale,et al. Confirmation of Isolated Cu2+ Ions in SSZ-13 Zeolite as Active Sites in NH3-Selective Catalytic Reduction , 2012 .

[250] J. Liu. Advanced Electron Microscopy of Metal–Support Interactions in Supported Metal Catalysts , 2011 .

[251] G. Ouvrard,et al. Ti and O K edges for titanium oxides by multiple scattering calculations: Comparison to XAS and EELS spectra , 1997 .

[252] C. Lamberti,et al. Doped-CuCl2/Al2O3 catalysts for ethylene oxychlorination: Influence of additives on the nature of active phase and reducibility , 2012 .

[253] C. Lamberti,et al. Alumina-Supported Copper Chloride 2. Effect of Aging and Thermal Treatments , 2000 .

[254] P. Frank. Medium-dependence of vanadium K-edge X-ray absorption spectra with application to blood cells from phlebobranch tunicates , 2003 .

[255] G. van Koten,et al. AXAFS as a probe of charge redistribution within organometallic complexes. , 2004, Journal of the American Chemical Society.

[256] P. Gambardella,et al. Magnetism of individual atoms adsorbed on surfaces , 2009 .

[257] László Hegedu˝s,et al. Hydrogenation of pyrrole derivatives I. Hydrogenations over palladium , 1996 .

[258] R. T. Yang,et al. Significantly enhanced hydrogen storage in metal-organic frameworks via spillover. , 2006, Journal of the American Chemical Society.

[259] E. D. Crozier,et al. A review of the current status of XAFS spectroscopy , 1997 .

[260] J. Nagy,et al. Isomorphously substituted Fe-ZSM-5 zeolites as catalysts , 2003 .

[261] J. Gardea-Torresdey,et al. ENVIRONMENTAL AND BIOLOGICAL APPLICATIONS OF EXTENDED X-RAY ABSORPTION FINE STRUCTURE (EXAFS) AND X-RAY ABSORPTION NEAR EDGE STRUCTURE (XANES) SPECTROSCOPIES , 2002 .

[262] A. Frenkel,et al. In situ diffuse reflectance IR spectroscopy and X-ray absorption spectroscopy for fast catalytic processes. , 2011, Journal of synchrotron radiation.

[263] D. Ferri,et al. Improvement of Catalytic Activity of LaFe0.95Pd0.05O3 for Methane Oxidation under Transient Conditions , 2011 .

[264] Di-Jia Liu,et al. In situ XANES characterization of the Cu oxidation state in Cu-ZSM-5 during NO decomposition catalysis , 1993 .

[265] C. Urbina,et al. Spectroscopic characterization of coordination complexes based on dichlorocopper(II) and poly(4-vinylpyridine): Application in catalysis , 2005 .

[266] C. Lamberti,et al. EXAFS Study of Ti, Fe and Ga Substituted Silicalites , 1999 .

[267] Christian Bressler,et al. Molecular structural dynamics probed by ultrafast X-ray absorption spectroscopy. , 2010, Annual review of physical chemistry (Print).

[268] Marc R. Knecht,et al. Periodicity and Atomic Ordering in Nanosized Particles of Crystals , 2008 .

[269] G. Ozin. Nanochemistry: Synthesis in diminishing dimensions , 1992 .

[270] S. Strauss. Copper(I) and silver(I) carbonyls. To be or not to be nonclassical , 2000 .

[271] E. Davidson,et al. Extended x-ray-absorption fine-structure amplitudes—Wave-function relaxation and chemical effects , 1978 .

[272] J. Niemantsverdriet,et al. Bonding of supported chromium during thermal activation of the CrOx/SiO2 (Phillips) ethylene polymerization catalyst , 2001 .

[273] A. Ankudinov,et al. New developments in the theory of X-ray absorption and core photoemission , 2001 .

[274] J. Misewich,et al. Investigating the structure of boron nitride nanotubes by near-edge X-ray absorption fine structure (NEXAFS) spectroscopy. , 2005, Physical chemistry chemical physics : PCCP.

[275] I. Moiseev,et al. Giant palladium clusters: synthesis and characterization , 1991 .

[276] M. Chergui,et al. Ultrafast X-ray absorption spectroscopy. , 2004, Chemical reviews.

[277] Shyam Biswas,et al. Synthesis of metal-organic frameworks (MOFs): routes to various MOF topologies, morphologies, and composites. , 2012, Chemical reviews.

[278] T. Tyson,et al. “Ab-initio” modelling of x-ray absorption spectra , 1991 .

[279] J. Grunwaldt,et al. In situ spectroscopic investigation of heterogeneous catalysts and reaction media at high pressure. , 2005, Physical chemistry chemical physics : PCCP.

[280] D. Friedman,et al. Application of a novel multiple scattering approach to photoelectron diffraction and Auger electron diffraction , 1991 .

[281] C. Lamberti,et al. The structure of active centers and the ethylene polymerization mechanism on the Cr/SiO2 catalyst: a frontier for the characterization methods. , 2005, Chemical reviews.

[282] Avelino Corma,et al. State of the art and future challenges of zeolites as catalysts , 2003 .

[283] G. Panov,et al. Mechanisms of Iron Activation on Fe-Containing Zeolites and the Charge of α-Oxygen , 2003 .

[284] T. Yokoyama,et al. SPIN-CROSSOVER PHASE TRANSITION OF A CHAIN FE(II) COMPLEX STUDIED BY X-RAY-ABSORPTION FINE-STRUCTURE SPECTROSCOPY , 1998 .

[285] J. Grunwaldt,et al. The nature of the active site in the Fe-ZSM-5/N2O system studied by (resonant) inelastic X-ray scattering , 2007 .

[286] El-Mekki El-Malki,et al. Isothermal oscillations during N2O decomposition over Fe/ZSM-5: effect of H2O vapor☆ , 2000 .

[287] J. Valyon,et al. Effects of reduction and reoxidation on the infrared spectra from Cu-Y and Cu-ZSM-5 zeolites , 1993 .

[288] Gérard Férey,et al. Microporous Solids: From Organically Templated Inorganic Skeletons to Hybrid Frameworks...Ecumenism in Chemistry , 2001 .

[289] Aaron Yevick,et al. Effects of surface disorder on EXAFS modeling of metallic clusters , 2010 .

[290] Y. Ono,et al. Transformation of propane into aromatic hydrocarbons over ZSM-5 zeolites , 1986 .

[291] Seth M Cohen,et al. Isoreticular synthesis and modification of frameworks with the UiO-66 topology. , 2010, Chemical communications.

[292] K. Lillerud,et al. Spectroscopic evidence for a persistent benzenium cation in zeolite H-beta. , 2003, Journal of the American Chemical Society.

[293] R. Nuzzo,et al. Dynamic structure in supported Pt nanoclusters: Real-time density functional theory and x-ray spectroscopy simulations , 2008 .

[294] U. Bergmann,et al. Structure and Orientation of the Mn4Ca Cluster in Plant Photosystem II Membranes Studied by Polarized Range-extended X-ray Absorption Spectroscopy*♦ , 2007, Journal of Biological Chemistry.

[295] H. Freund,et al. Free-Electron Lasers: Status and Applications , 2001, Science.

[296] C. Lamberti,et al. Heterogeneous Nonclassical Carbonyls Stabilized in Cu(I)− and Ag(I)−ZSM-5 Zeolites: Thermodynamic and Spectroscopic Features , 2004 .

[297] V. Briois,et al. Combining two structural techniques on the micrometer scale: micro-XAS and micro-Raman spectroscopy. , 2007, Journal of synchrotron radiation.

[298] Gérard Férey,et al. Metal-organic frameworks in biomedicine. , 2012, Chemical reviews.

[299] R. Prins,et al. An in situ and operando X-ray absorption spectroscopy setup for measuring sub-monolayer model and powder catalysts. , 2005, Journal of synchrotron radiation.

[300] C. Lamberti,et al. Infrared study of carbon monoxide adsorption at 77 K on faujasites and ZSM-5 zeolites , 1993 .

[301] R. Xiong,et al. Ferroelectric metal-organic frameworks. , 2012, Chemical reviews.

[302] S. Mukerjee,et al. Contrast in Metal-Ligand Effects on PtnM Electrocatalysts with M Equal Ru vs Mo and Sn As Exhibited by in Situ XANES and EXAFS Measurements in Methanol , 2010 .

[303] Alfons Baiker,et al. 2D-mapping of the catalyst structure inside a catalytic microreactor at work: partial oxidation of methane over Rh/Al2O3. , 2006, The journal of physical chemistry. B.

[304] U. Bentrup. Combining in situ characterization methods in one set-up: looking with more eyes into the intricate chemistry of the synthesis and working of heterogeneous catalysts. , 2010, Chemical Society reviews.

[305] A. Kuzmin,et al. EDA: EXAFS data analysis software package , 1995 .

[306] Simon J L Billinge,et al. The Problem with Determining Atomic Structure at the Nanoscale , 2007, Science.

[307] J. Arnold,et al. Titanium(II), -(III), and -(IV) Complexes Supported by Benzamidinate Ligands , 1998 .

[308] H. Wende,et al. Atomic EXAFS: evidence for photoelectron backscattering by interstitial charge densities , 1999 .

[309] M. Janousch,et al. In situ XAS and XRPD parametric rietveld refinement to understand dealumination of Y zeolite catalyst. , 2010, Journal of the American Chemical Society.

[310] C. Lamberti,et al. Structure and reactivity of framework and extraframework iron in Fe-silicalite as investigated by spectroscopic and physicochemical methods , 1996 .

[311] C. Natoli,et al. X-ray absorption spectroscopy: state-of-the-art analysis. , 2003, Journal of synchrotron radiation.

[312] K. Doll,et al. Ti-chabazite as a model system of Ti(IV) in Ti-zeolites: A periodic approach , 2003 .

[313] F. Farges. Fivefold-coordinated Ti4+ in metamict zirconolite and titanite: A new occurrence shown by Ti K-edge XANES spectroscopy , 1997 .

[314] J. Bokhoven,et al. Influence of Steam Activation on Pore Structure and Acidity of Zeolite Beta: An Al K Edge XANES Study of Aluminum Coordination , 2002 .

[315] F. Lytle,et al. Extended x‐ray absorption fine structure (EXAFS) of highly dispersed rhodium catalysts , 1983 .

[316] C. Lamberti,et al. Calorimetric and spectroscopic study of the coordinative unsaturation of copper(I) and silver(I) cations in ZSM-5 zeolite - Room temperature adsorption of NH3 , 2001 .

[317] J. Sinfelt. Role of surface science in catalysis , 2002 .

[318] A. Frenkel,et al. Electronic and magnetic properties of ultrathin Au/Pt nanowires. , 2009, Nano letters.

[319] F. Meunier. The design and testing of kinetically-appropriate operando spectroscopic cells for investigating heterogeneous catalytic reactions. , 2010, Chemical Society reviews.

[320] C. Booth,et al. Improved self-absorption correction for extended x-ray absorption fine-structure measurements , 2003 .

[321] J. Niemantsverdriet,et al. Pt-CO/SiO2 bimetallic planar model catalysts for selective hydrogenation of crotonaldehyde , 2004 .

[322] A new cell for the study of in situ chemical reactions using X-ray absorption spectroscopy. , 2005, Journal of synchrotron radiation.

[323] G. A. Lindsay,et al. Fine Structure in the X-Ray Absorption Spectra of the K Series of the Elements Calcium to Gallium , 1930 .

[324] Adriano Zecchina,et al. Role of exposed metal sites in hydrogen storage in MOFs. , 2008, Journal of the American Chemical Society.

[325] C. Lamberti,et al. Reactivity of Ti(IV) sites in Ti-zeolites: An embedded cluster approach , 2002 .

[326] Kimoon Kim,et al. Homochiral metal-organic frameworks for asymmetric heterogeneous catalysis. , 2012, Chemical reviews.

[327] M. Peruzzini,et al. Synthesis, characterization and CO2 uptake of a chiral Co(II) Metal-Organic Framework containing a thiazolidine-based spacer , 2012 .

[328] M. Chergui,et al. Electronic and molecular structure of photoexcited [Ru(II)(bpy)3]2+ probed by picosecond X-ray absorption spectroscopy. , 2006, Journal of the American Chemical Society.

[329] N. Jaeger,et al. A XANES and EXAFS investigation of titanium silicalite , 1991 .

[330] B. Sels,et al. A [Cu2O]2+ core in Cu-ZSM-5, the active site in the oxidation of methane to methanol , 2009, Proceedings of the National Academy of Sciences.

[331] D. Ramaker,et al. The metal–support interaction in Pt/Y zeolite: evidence for a shift in energy of metal d-valence orbitals by Pt–H shape resonance and atomic XAFS spectroscopy , 2000 .

[332] M. Fernández-García,et al. XANES-TPR Study of Cu-Pd Bimetallic Catalysts: Application of Factor Analysis , 1995 .

[333] K. Lillerud,et al. Post-synthetic modification of the metal–organic framework compound UiO-66 , 2010 .

[334] P. Ratnasamy,et al. Reactive oxygen species in epoxidation reactions over titanosilicate molecular sieves , 2003 .

[335] C. Lamberti,et al. Modeling CO and N2 adsorption at Cr surface species of Phillips catalyst by hybrid density functionals: effect of Hartree-Fock exchange percentage. , 2009, The journal of physical chemistry. A.

[336] Mircea Dincă,et al. Hydrogen storage in metal-organic frameworks. , 2009, Chemical Society reviews.

[337] G. Tabacchi,et al. Electronic spectra of Ti(IV) in zeolites: an ab initio approach. , 2005, Chemphyschem : a European journal of chemical physics and physical chemistry.

[338] Bartolomeo Civalleri,et al. Hartree–Fock geometry optimisation of periodic systems with the Crystal code , 2001 .

[339] E. Weckert,et al. Review of third and next generation synchrotron light sources , 2005 .

[340] W. Lukens,et al. Perhydrocarbyl ReVII complexes: comparison of molecular and surface complexes. , 2003, Journal of the American Chemical Society.

[341] J. K. Park,et al. Design and feasibility of quick EXAFS scans for a 'broomstick' double-crystal monochromator at PLS beamline. , 1998, Journal of synchrotron radiation.

[342] V. G. Yarzhemsky,et al. EXAFS in total reflection (reflEXAFS) for the study of organometallic Pd(II) thiol complexes based self-assembled monolayers on gold , 2011, CP 2011.

[343] C. Catlow,et al. X-ray absorption spectroscopic study of Bronsted, Lewis, and redox centers in cobalt-substituted aluminum phosphate catalysts , 1996 .

[344] R. Prins,et al. Determination of metal particle size of highly dispersed Rh, Ir, and Pt catalysts by hydrogen chemisorption and EXAFS , 1986 .

[345] H. Hou,et al. Catalytic applications of CuII-containing MOFs based on N-heterocyclic ligand in the oxidative coupling of 2,6-dimethylphenol , 2007 .

[346] M. Beauchemin,et al. Principal Component Analysis Approach for Modeling Sulfur K-XANES Spectra of Humic Acids , 2002 .

[347] F. Ribeiro,et al. Low absorption vitreous carbon reactors for operando XAS: a case study on Cu/Zeolites for selective catalytic reduction of NO(x) by NH3. , 2012, Physical chemistry chemical physics : PCCP.

[348] S. Kaliaguine,et al. Novel titanium sites in silicalites , 1992 .

[349] Uwe Bergmann,et al. X-ray emission spectroscopy to study ligand valence orbitals in Mn coordination complexes. , 2009, Journal of the American Chemical Society.

[350] H. Renevier,et al. Pre-edge structure analysis of Ti K-edge polarized X-ray absorption spectra in TiO2 by full-potential XANES calculations. , 1999, Journal of synchrotron radiation.

[351] W. Mross. Alkali Doping in Heterogeneous Catalysis , 1983 .

[352] M. L. Connolly. Solvent-accessible surfaces of proteins and nucleic acids. , 1983, Science.

[353] Y. Iwasawa,et al. Photoinduced reversible structural transformation and selective oxidation catalysis of unsaturated ruthenium complexes supported on SiO2. , 2008, Angewandte Chemie.

[354] O. Swang,et al. Detailed reaction paths for zeolite dealumination and desilication from density functional calculations. , 2012, Angewandte Chemie.

[355] T. Tatsumi,et al. Extremely high trans selectivity of Ti-MWW in epoxidation of alkenes with hydrogen peroxide , 2001 .

[356] L. Fonda. Multiple-scattering theory of x-ray absorption : a review , 1992 .

[357] B. Weckhuysen,et al. Diffuse Reflectance Spectroscopy of Supported Chromium Oxide Catalysts: A Self-Modeling Mixture Analysis , 1997 .

[358] J. Tarascon,et al. Mixed-valence li/fe-based metal-organic frameworks with both reversible redox and sorption properties. , 2007, Angewandte Chemie.

[359] F. Kapteijn,et al. Active site structure sensitivity in N2O conversion over FeMFI zeolites , 2003 .

[360] C. Arean,et al. Computational and Experimental Studies on the Adsorption of CO, N2, and CO2 on Mg-MOF-74 , 2010 .

[361] Y. Ono,et al. Transformation of butanes over ZSM-5 zeolites. Part 2.—Formation of aromatic hydrocarbons over Zn-ZSM-5 and Ga-ZSM-5 , 1991 .

[362] C. Lamberti,et al. Polycarbonylic and polynitrosylic species in CuI-exchanged ZSM-5, β, mordenite and Y zeolites: comparison with homogeneous complexes , 2000 .

[363] C. Lamberti,et al. Local structure of CPO-27-Ni metallorganic framework upon dehydration and coordination of NO , 2008 .

[364] Christian J. Doonan,et al. Multiple Functional Groups of Varying Ratios in Metal-Organic Frameworks , 2010, Science.

[365] Takashi Tatsumi,et al. Synthesis and catalytic performance of Ti-MCM-68 for effective oxidation reactions. , 2008, Chemical communications.

[366] A. MacDowell,et al. Soft x‐ray beam line for surface EXAFS studies in the energy range 60≤hν≤11 100 eV at the Daresbury SRS , 1986 .

[367] J. Rehr,et al. Extended x-ray absorption fine structure Debye-Waller factors. I. Monatomic crystals , 1979 .

[368] F. Matthias Bickelhaupt,et al. Chemistry with ADF , 2001, J. Comput. Chem..

[369] Booth,et al. Reply to "Comment on 'x-ray-absorption fine structure in embedded atoms' " , 1996, Physical Review B (Condensed Matter).

[370] Avelino Corma,et al. Synthesis of an ultralarge pore titanium silicate isomorphous to MCM-41 and its application as a catalyst for selective oxidation of hydrocarbons , 1994 .

[371] A. Sanson,et al. Extended x-ray-absorption fine-structure measurements of copper: Local dynamics, anharmonicity, and thermal expansion , 2004 .

[372] W. Hall,et al. Catalytic decomposition of nitric oxide over Cu-zeolites , 1991 .

[373] K. Klementev. Package “VIPER (visual processing in EXAFS researches) for windows”☆ , 2000 .

[374] C. Kepert,et al. Elucidating Negative Thermal Expansion in MOF-5 , 2010 .

[375] J. Bozek,et al. Non-linear processes in the interaction of atoms and molecules with intense EUV and X-ray fields from SASE free electron lasers (FELs) , 2010 .

[376] C. Prestipino,et al. Quick-EXAFS implementation on the general purpose EXAFS beamline at ESRF , 2011, Journal of synchrotron radiation.

[377] B. Wichterlová,et al. Identification of Cu Sites in ZSM-5 Active in NO Decomposition , 1995 .

[378] B. Weckhuysen,et al. Atomic XAFS as a tool to probe the electronic properties of supported noble metal nanoclusters. , 2005, Journal of the American Chemical Society.

[379] F. d’Acapito,et al. Probing the initial stages of solid-state reactions by total reflection EXAFS (reflEXAFS) , 2003 .

[380] R. W. Joyner,et al. Preparation, Characterization, and Performance of Fe−ZSM-5 Catalysts , 1999 .

[381] F. d’Acapito,et al. Temperature modification of the Nb oxidation at the Nb/Al interface studied by reflEXAFS , 2000 .

[382] K. Theopold. Homogeneous Chromium Catalysts for Olefin Polymerization , 1998 .

[383] A. Fitch,et al. Selective catalytic reduction of NOx over microporous CuAPO-5: structural characterisation by XAS and XRD , 2005 .

[384] D. P. Woodruff,et al. Normal-incidence standing X-ray wavefield absorption and SEXAFS studies of adsorption structures on Cu and Ni surfaces , 1990 .

[385] John J. Rehr,et al. Theoretical X-ray Absorption Fine Structure Standards , 1991 .

[386] F. Lytle. X-Ray Absorption Fine-Structure Investigations at Cryogenic Temperatures , 1963 .

[387] M. Allendorf,et al. Luminescent metal-organic frameworks. , 2009, Chemical Society reviews.

[388] H. Wan,et al. Supported Au catalysts prepared from Au phosphine complexes and As-precipitated metal hydroxides: Characterization and low-temperature CO oxidation , 1997 .

[389] J. Grunwaldt,et al. A versatile in situ spectroscopic cell for fluorescence/transmission EXAFS and X-ray diffraction of heterogeneous catalysts in gas and liquid phase. , 2007, Journal of synchrotron radiation.

[390] F. Lytle. The EXAFS family tree: a personal history of the development of extended X-ray absorption fine structure. , 1999, Journal of synchrotron radiation.

[391] M. Gibbs,et al. Measurement of femtometre-scale atomic displacements by X-ray absorption spectroscopy , 2005, Nature.

[392] Peng Wu,et al. CHARACTERIZATION OF TITANIUM SPECIES INCORPORATED INTO DEALUMINATED MORDENITES BY MEANS OF IR SPECTROSCOPY AND 18O-EXCHANGE TECHNIQUE , 1996 .

[393] W. O'grady,et al. 'Atomic' X-ray absorption fine structure : a new tool for examining electrochemical interfaces , 1998 .

[394] R. Greegor,et al. Effect of chemical environment on magnitude of x‐ray absorption resonance at LIII edges. Studies on metallic elements, compounds, and catalysts , 1979 .

[395] Stuart L James,et al. Metal-organic frameworks. , 2003, Chemical Society reviews.

[396] C. Lamberti,et al. Preparation of Pd/C catalysts: from the Pd-precursor solution to the final systems , 2006 .

[397] B. Sels,et al. Cu-ZSM-5: A biomimetic inorganic model for methane oxidation. , 2011, Journal of catalysis.

[398] V. A. Safonov,et al. Cr local environment by valence-to-core X-ray emission spectroscopy , 2009 .

[399] H. Fjellvåg,et al. Adsorption properties and structure of CO2 adsorbed on open coordination sites of metal-organic framework Ni2(dhtp) from gas adsorption, IR spectroscopy and X-ray diffraction. , 2008, Chemical communications.

[400] D. Ramaker,et al. Separation of Geometric and Electronic Effects of the Support on the CO and H2 Chemisorption Properties of Supported Pt Particles: The Effect of Ionicity in Modified Alumina Supports , 2007 .

[401] C. Lamberti,et al. Behavior of extraframework Fe sites in MFI and MCM-22 zeolites upon interaction with N2O and NO. , 2005, The journal of physical chemistry. B.

[402] A. Kentgens,et al. The removal of gallium from the lattice of MF1-gallosilicates as studied by 71Ga M.A.S-N.M.R spectroscopy , 1989 .

[403] S. Schroeder. Towards a 'universal curve' for total electron-yield XAS , 1996 .

[404] V. López‐Flores,et al. Optimized end station and operating protocols for reflection extended x-ray absorption fine structure (ReflEXAFS) investigations of surface structure at the European Synchrotron Radiation Facility beamline BM29. , 2007, The Review of scientific instruments.

[405] A. Frenkel. Applications of extended X-ray absorption fine-structure spectroscopy to studies of bimetallic nanoparticle catalysts. , 2012, Chemical Society reviews.

[406] F. Geobaldo,et al. Characterization of Gallosilicate MFI-Type Zeolites by IR spectroscopy of Adsorbed Probe molecules. , 1996 .

[407] E. Borfecchia,et al. Iron oxidation state in garnet from a subduction setting: a micro-XANES and electron microprobe (“flank method”) comparative study , 2012 .

[408] E. Stern. Theory of the extended x-ray-absorption fine structure , 1974 .

[409] A. Dent,et al. In situ energy dispersive EXAFS (EDE) of low loaded Pt(acac)2/HI SiO2 catalyst precursors on a timescale of seconds and below , 1999 .

[410] M. Skoglundh,et al. In Situ Spectroscopic Investigation of Low-Temperature Oxidation of Methane over Alumina-Supported Platinum during Periodic Operation† , 2011 .

[411] C. Serre,et al. Porous Chromium Terephthalate MIL‐101 with Coordinatively Unsaturated Sites: Surface Functionalization, Encapsulation, Sorption and Catalysis , 2009 .

[412] Avelino Corma,et al. Water stable Zr-benzenedicarboxylate metal-organic frameworks as photocatalysts for hydrogen generation. , 2010, Chemistry.

[413] G. Spoto,et al. IR Spectra of CO Adsorbed at Low Temperature (77 K) On Titaniumsilicalite, H-ZSM5 and Silicalite , 1991 .

[414] J. Niemantsverdriet,et al. A surface science model for the Phillips ethylene polymerization catalyst : thermal activation and polymerization activity , 2004 .

[415] A. Ankudinov,et al. REAL-SPACE MULTIPLE-SCATTERING CALCULATION AND INTERPRETATION OF X-RAY-ABSORPTION NEAR-EDGE STRUCTURE , 1998 .

[416] A. Beale,et al. Comparing CuAPO-5 with Cu:ZSM-5 in the selective catalytic reduction of NOx : An in situ study , 2007 .

[417] H. Renevier,et al. DIFFRACTION-ANOMALOUS-FINE-STRUCTURE SPECTROSCOPY APPLIED TO THE STUDY OF III-V STRAINED SEMICONDUCTORS , 1999 .

[418] A. Yagishita,et al. Formation and oxidation mechanisms of Pd-Zn nanoparticles on a ZnO supported Pd catalyst studied by in situ time-resolved QXAFS and DXAFS. , 2012, Physical chemistry chemical physics : PCCP.

[419] K. Lillerud,et al. Assessing the acidity of high silica chabazite H-SSZ-13 by FTIR using CO as molecular probe: Comparison with H-SAPO-34. , 2005, The journal of physical chemistry. B.

[420] A. Yaresko,et al. Electronic structure and x-ray magnetic circular dichroism in uranium compounds. III. Heavy-fermion compounds , 2003 .

[421] D. Ferri,et al. Combined liquid-phase ATR-IR and XAS study of the Bi-promotion in the aerobic oxidation of benzyl alcohol over Pd/Al2O3 , 2007 .

[422] C. Catlow,et al. The architecture of catalytically active centers in titanosilicate (TS-1) and related selective-oxidation catalysts , 2000 .

[423] R. Greegor,et al. Determination of thermal amplitude of surface atoms in a supported Pt catalyst by EXAFS spectroscopy , 1982 .

[424] Y. Joly. Interaction of Polarized Light with Matter , 2010 .

[425] C. Lamberti,et al. Anchoring Fe ions to amorphous and crystalline oxides: a means to tune the degree of Fe coordination. , 2003, Chemphyschem : a European journal of chemical physics and physical chemistry.

[426] E. Hensen,et al. Direct NO and N2O decomposition and NO-assisted N2O decomposition over Cu-zeolites : elucidating the influence of the Cu-Cu distance on the oxygen migration , 2007 .

[427] T. Nakai,et al. State of titanium in Ti-containing silica and silicalite catalysts in relation to their oxidation activity , 1994 .

[428] R. Sheldon,et al. AMMOXIMATION OF CYCLOHEXANONE AND HYDROXYAROMATIC KETONES OVER TITANIUM MOLECULAR SIEVES , 1996 .

[429] G. Spoto,et al. Cu(I)-ZSM-5 zeolites prepared by reaction of H-ZSM-5 with gaseous CuCl: Spectroscopic characterization and reactivity towards carbon monoxide and nitric oxide☆ , 1994 .

[430] H. Mao,et al. In Situ Studies of Iron under Pressure: New Windows on the Earth's Core , 2001 .

[431] Gérard Férey,et al. Hybrid porous solids: past, present, future. , 2008, Chemical Society reviews.

[432] C. Lamberti,et al. Preparation of supported Pd catalysts: from the Pd precursor solution to the deposited Pd2+ phase. , 2010, Langmuir : the ACS journal of surfaces and colloids.

[433] A. Frenkel,et al. Phase speciation by extended x-ray absorption fine structure spectroscopy , 2002 .

[434] C. Serre,et al. Synthesis, characterisation and luminescent properties of a new three-dimensional lanthanide trimesate: M((C6H3)–(CO2)3)(M = Y, Ln) or MIL-78 , 2004 .

[435] P. Ellis,et al. XFIT - an Interactive EXAFSAnalysis Program. , 1995, Journal of synchrotron radiation.

[436] C. Lamberti,et al. On the Structure of the Active Site of Ti-Silicalite in Reactions with Hydrogen Peroxide: A Vibrational and Computational Study , 1998 .

[437] A. Bell,et al. X-ray absorption fine structure analysis of the local environment of Fe in Fe/Al-MFI , 2004 .

[438] Filipponi,et al. Comment on "X-ray-absorption fine structure in embedded atoms" , 1996, Physical review. B, Condensed matter.

[439] A. Urakawa,et al. Copper metal–organic framework: Structure and activity in the allylic oxidation of cyclohexene with molecular oxygen , 2010 .

[440] Z. Gabelica,et al. Synthesis of MFI metallosilicate zeolites using metallic amino complexes as mineralizing agents: an overview , 1999 .

[441] D. Bazin,et al. In Situ XAFS Measurement of Catalysts , 1996 .

[442] A. Corma,et al. Synthesis of titanoaluminosilicates isomorphous to zeolite Beta, active as oxidation catalysts , 1993 .

[443] G. Spinolo,et al. Micro-XANES mapping of buried interfaces: pushing microbeam techniques to the nanoscale. , 2010, Physical chemistry chemical physics : PCCP.

[444] C. Pak,et al. Reversible coordination change of chromium in Cr-MCM-41 and Cr-MCM-48 studied by X-ray absorption near edge structure , 2001 .

[445] A. Carati,et al. Preparation and characterisation of mesoporous silica–alumina and silica–titania with a narrow pore size distribution , 2003 .

[446] D. Ferri,et al. First steps in combining modulation excitation spectroscopy with synchronous dispersive EXAFS/DRIFTS/mass spectrometry for in situ time resolved study of heterogeneous catalysts. , 2010, Physical chemistry chemical physics : PCCP.

[447] Krista S. Walton,et al. Exceptional negative thermal expansion in isoreticular metal-organic frameworks. , 2007, Angewandte Chemie.

[448] J. F. Creemer,et al. Nanoscale chemical imaging of the reduction behavior of a single catalyst particle. , 2009, Angewandte Chemie.

[449] U. Bergmann,et al. Site-selective EXAFS in mixed-valence compounds using high-resolution fluorescence detection: a study of iron in Prussian Blue. , 2002, Inorganic chemistry.

[450] G. Bond,et al. Compensation Phenomena in Heterogeneous Catalysis: General Principles and a Possible Explanation , 2000 .

[451] A. Beale,et al. Chemical imaging of catalytic solids with synchrotron radiation. , 2010, Chemical Society reviews.

[452] C. Prestipino,et al. Novel high-temperature reactors for in situ studies of three-way catalysts using turbo-XAS. , 2009, Journal of synchrotron radiation.

[453] E. Borfecchia,et al. Insights into Adsorption of NH3 on HKUST-1 Metal–Organic Framework: A Multitechnique Approach , 2012 .

[454] J. A. Ryder,et al. X-ray Absorption Fine Structure Characterization of the Local Structure of Fe in Fe−ZSM-5 , 2003 .

[455] K. Góra-Marek,et al. Nitrogen Monoxide Interaction with Cu(I) Sites in Zeolites X and Y : Quantum Chemical Calculations and IR Studies , 2008 .

[456] A. Dent,et al. Combining diffuse reflectance infrared spectroscopy (DRIFTS), dispersive EXAFS, and mass spectrometry with high time resolution: Potential, limitations, and application to the study of NO interaction with supported Rh catalysts , 2007 .

[457] K. Houthoofd,et al. Reversible NOx storage over Ru/Na–Y zeolite , 2010 .

[458] J. Hanawalt. The Dependence of X-ray Absorption Spectra upon Chemical and Physical State , 1931 .

[459] Marc R. Knecht,et al. Structural Rearrangement of Bimetallic Alloy PdAu Nanoparticles within Dendrimer Templates to Yield Core/Shell Configurations† , 2008 .

[460] A. Beale,et al. A combined in situ time-resolved UV–Vis, Raman and high-energy resolution X-ray absorption spectroscopy study on the deactivation behavior of Pt and Pt-Sn propane dehydrogenation catalysts under industrial reaction conditions , 2010 .

[461] M. Makkee,et al. Selective Catalytic Reduction of NO with NH3 over Fe-ZSM-5 Catalysts Prepared by Sublimation of FeCl3 at Different Temperatures , 2003 .

[462] Jamie A. Gould,et al. Nitric oxide chemisorption in a postsynthetically modified metal-organic framework. , 2009, Inorganic chemistry.

[463] G. Bellussi,et al. Structural characterization of as-synthesized B- and Ti-containing MFI-type molecular sieves , 2000 .

[464] K. Asakura. Analysis of EXAFS , 1996 .

[465] H. Wende,et al. Recent advances in x-ray absorption spectroscopy , 2004 .

[466] G. Ghiotti,et al. On the chemistry of silica-supported Cr ions. Part II. One ligand complexes. Adsorption of carbon monoxide, carbon dioxide and pyridine , 1975 .

[467] B. Weckhuysen,et al. Revealing shape selectivity and catalytic activity trends within the pores of H-ZSM-5 crystals by time- and space-resolved optical and fluorescence microspectroscopy. , 2007, Chemistry.

[468] D. Ferri,et al. Modulation Excitation X-Ray Absorption Spectroscopy to Probe Surface Species on Heterogeneous Catalysts , 2011 .

[469] A. Regazzoni,et al. The interaction of metal oxide surfaces with complexing agents dissolved in water , 2000 .

[470] P. Magusin,et al. Effect of aluminum on the nature of the iron species in Fe-SBA-15. , 2006, The journal of physical chemistry. B.

[471] Thole,et al. X-ray circular dichroism as a probe of orbital magnetization. , 1992, Physical review letters.

[472] F. Ribeiro,et al. Integrated operando X-ray absorption and DFT characterization of Cu–SSZ-13 exchange sites during the selective catalytic reduction of NOx with NH3 , 2012 .

[473] Yan Liu,et al. Engineering Homochiral Metal‐Organic Frameworks for Heterogeneous Asymmetric Catalysis and Enantioselective Separation , 2010, Advanced materials.

[474] J. Rabalais. CHEMICAL REACTION INDUCED MASS TRANSPORT AT SURFACES , 1994 .

[475] D. Root,et al. Spectroscopic studies of side-on peroxide-bridged binuclear copper(II) model complexes of relevance to oxyhemocyanin and oxytyrosinase , 1992 .

[476] Christian G. Schroer,et al. Hard and soft X-ray microscopy and tomography in catalysis: bridging the different time and length scales. , 2010, Chemical Society reviews.

[477] M. Britton. Magnetic resonance imaging of chemistry. , 2010, Chemical Society reviews.

[478] M. Chergui,et al. Picosecond time-resolved x-ray absorption spectroscopy of solvated organometallic complexes , 2005 .

[479] F. Lytle,et al. Structure of bimetallic clusters. Extended x‐ray absorption fine structure (EXAFS) studies of Rh–Cu clusters , 1983 .

[480] R. Lobo,et al. Copper Coordination in Cu-SSZ-13 and Cu-SSZ-16 Investigated by Variable-Temperature XRD , 2010 .

[481] R. Albers. Electronic band-structure methods for XAS , 1989 .

[482] H. Maeda,et al. SPECIFIC FEATURE OF COPPER ION-EXCHANGED MORDENITE FOR DINITROGEN ADSORPTION AT ROOM TEMPERATURE , 1995 .

[483] Hiroaki Yamanaka,et al. Surface nano-architecture of a metal-organic framework. , 2010, Nature materials.

[484] Progress and challenges in the theory and interpretation of X-ray spectra. , 2001 .

[485] R. Nuzzo,et al. A view from the inside: Complexity in the atomic scale ordering of supported metal nanoparticles , 2001 .

[486] A. Corma,et al. Uniform catalytic site in Sn-beta-zeolite determined using X-ray absorption fine structure. , 2005, Journal of the American Chemical Society.

[487] P. Glatzel,et al. In situ characterization of the 5d density of states of Pt nanoparticles upon adsorption of CO. , 2010, Journal of the American Chemical Society.

[488] B. Weckhuysen,et al. In situ synchrotron-based IR microspectroscopy to study catalytic reactions in zeolite crystals. , 2008, Angewandte Chemie.

[489] F. Fontanelli,et al. Detection of environmental fine structure in the low-energy β-decay spectrum of 187Re , 1999, Nature.

[490] Y. Joly,et al. X-ray absorption near-edge structure calculations beyond the muffin-tin approximation , 2001 .

[491] D. Cockayne. The Study of Nanovolumes of Amorphous Materials Using Electron Scattering , 2007 .

[492] R. Linford. EXAFS studies of polymer electrolytes , 1995 .

[493] Liang Wang,et al. Designed synthesis of TS-1 crystals with controllable b-oriented length. , 2011, Chemical communications.

[494] C. Lamberti,et al. Pd-supported catalysts: evolution of support porous texture along Pd deposition and alkali-metal doping. , 2009, Langmuir : the ACS journal of surfaces and colloids.

[495] J. Evans. Tilden lecture: shining light on metal catalysts , 1997 .

[496] M. Newton. Beam-size-related phenomena and effective normalization in energy-dispersive EXAFS for the study of heterogeneous catalysts, powder materials and the processes they mediate: observations and (some) solutions. , 2007, Journal of synchrotron radiation.

[497] A. J. O'leary. Interaction of X-rays with Bound Electrons , 1931 .

[498] C. Lamberti,et al. XANES, EXAFS and FTIR characterization of copper-exchanged mordenite , 1998 .

[499] M. J. Ellis,et al. Atomic resolution crystallography and XAFS , 2005 .

[500] H. Ebert,et al. Spin—Orbit-Influenced Spectroscopies of Magnetic Solids , 1996 .

[501] W. Hölderich,et al. Modified Beta zeolites as catalysts for the Beckmann rearrangement of cyclohexanone oxime , 1999 .

[502] E. A. Quadrelli,et al. Well-defined surface imido amido tantalum(v) species from ammonia and silica-supported tantalum hydrides. , 2007, Journal of the American Chemical Society.

[503] M. Fernández-García,et al. Selective CO oxidation in excess H2 over copper-ceria catalysts: identification of active entities/species. , 2007, Journal of the American Chemical Society.

[504] Anatoly Snigirev,et al. Nanotomography based on hard x-ray microscopy with refractive lenses , 2002 .

[505] J. Derrien,et al. Evidence of extended fine structures in the Auger spectra: A new approach for surface structural studies , 1986 .

[506] J. Hormes,et al. An X-ray absorption near edge spectroscopy (XANES) study on organochromium complexes at the Cr K-edge , 1998 .

[507] A. Suzuki,et al. Time scale and elementary steps of CO-induced disintegration of surface rhodium clusters. , 2003, Angewandte Chemie.

[508] G. M. Zhidomirov,et al. Cluster Model DFT Study of the Intermediates of Benzene to Phenol Oxidation by N2O on FeZSM-5 Zeolites , 2003 .

[509] Graham N. Newton,et al. Following the self assembly of supramolecular MOFs using X-ray crystallography and cryospray mass spectrometry , 2010 .

[510] S. Kitagawa,et al. Temperature responsive channel uniformity impacts on highly guest-selective adsorption in a porous coordination polymer , 2010 .

[511] C. Lamberti,et al. Infrared studies of the interaction of carbon monoxide and dinitrogen with ferrisilicate MFI-type zeolites , 1996 .

[512] R. Schlögl,et al. In-situ soft X-ray absorption of over-exchanged Fe/ZSM5 , 2003 .

[513] Frenkel,et al. Thermal expansion and x-ray-absorption fine-structure cumulants. , 1993, Physical review. B, Condensed matter.

[514] F. K. Richtmyer,et al. The Relative Intensities of CertainL-Series X-Ray Satellites in Cathode-Ray and in Fluorescence Excitation , 1933 .

[515] M. Jansen,et al. Extended X-ray absorption fine-structure (EXAFS) of a complex oxide structure: A full multiple scattering analysis of the Au L3-edge EXAFS of Au2O3 , 2003 .

[516] K. Chapman,et al. Elucidating the structure of surface acid sites on γ-Al2O3. , 2011, Journal of the American Chemical Society.

[517] G. Hertz. über die Absorptionsgrenzen in derL-Serie , 1920 .

[518] A. Witkowska,et al. Local ordering of nanostructured Pt probed by multiple-scattering XAFS , 2007 .

[519] J. Marangos. Introduction to the new science with X-ray free electron lasers , 2011 .

[520] C. Serre,et al. An EXAFS study of the formation of a nanoporous metal-organic framework: evidence for the retention of secondary building units during synthesis. , 2006, Chemical communications.

[521] Y. Kvashnin,et al. Ligand identification in titanium complexes using X-ray valence-to-core emission spectroscopy. , 2010, Inorganic chemistry.

[522] P. S. Prasad,et al. Low temperature ethylene chemisorption (L.T.E.C.): a novel technique for the characterisation of CuCl2–KCl/γ-Al2O3 oxychlorination catalysts , 1987 .

[523] K. Chao,et al. Characterization of metal-incorporated molecular sieves , 1999 .

[524] J. Arthur,et al. X-ray free-electron lasers , 2005 .

[525] F. Cavani,et al. Sustainability in catalytic oxidation: an alternative approach or a structural evolution? , 2009, ChemSusChem.

[526] C. Grey,et al. Application of high-energy X-rays and Pair-Distribution-Function analysis to nano-scale structural studies in catalysis , 2009 .

[527] Bernd G. Pfrommer,et al. Relaxation of Crystals with the Quasi-Newton Method , 1997 .

[528] Hong-Cai Zhou,et al. Metal-organic frameworks for separations. , 2012, Chemical reviews.

[529] C. Lamberti,et al. Structural characterization of Ti centres in Ti-silicalite and reaction mechanisms in cyclohexanone ammoximation , 1996 .

[530] A. V. D. Eerden,et al. Flexible aluminium coordination of zeolites as function of temperature and water content, an in-situ method to determine aluminium coordinations , 2002 .

[531] Xinsheng Liu,et al. Gallozeolite catalysts: preparation, characterization and performance , 1986 .

[532] Cheng Wang,et al. Isoreticular chiral metal-organic frameworks for asymmetric alkene epoxidation: tuning catalytic activity by controlling framework catenation and varying open channel sizes. , 2010, Journal of the American Chemical Society.

[533] S. Bordiga,et al. Selective Oxidation of Ammonia to Hydroxylamine with Hydrogen Peroxide on Titanium Based Catalysts , 1994 .

[534] T. Saito,et al. In situ XAFS analysis system for high-pressure catalytic reactions and its application to CO2 hydrogenation over a Rh/Y-zeolite catalyst. , 2001, Journal of synchrotron radiation.

[535] L. Liotta,et al. Structure and the Metal Support Interaction of the Au/Mn Oxide Catalysts , 2010 .

[536] M. Fernández-García,et al. Multitechnique analysis of supported Pd particles upon dynamic, cycling CO/NO conditions: Size-dependence of the structure–activity relationship , 2010 .

[537] R. Rye,et al. Flash desorption and equilibration of H2 and D2 on single crystal surfaces of platinum , 1974 .

[538] J. Bokhoven,et al. In situ X-ray absorption spectroscopy as a unique tool for obtaining information on hydrogen binding sites and electronic structure of supported Pt catalysts: towards an understanding of the compensation relation in alkane hydrogenolysis , 2003 .

[539] Ivar M. Dahl,et al. On the Reaction Mechanism for Hydrocarbon Formation from Methanol over SAPO-34 2. Isotopic Labeling Studies of the Co-reaction of Propene and Methanol , 1994 .

[540] F. Boscherini. Chapter 7 – X-Ray Absorption Fine Structure in the Study of Semiconductor Heterostructures and Nanostructures , 2013 .

[541] J. Hazemann,et al. Quantitative Analysis of X-Ray Absorption Near Edge Structure Data by a Full Multiple Scattering Procedure , 2001 .

[542] Jianlin Shi,et al. Hierarchical mesoporous TS-1 zeolite: a highly active and extraordinarily stable catalyst for the selective oxidation of 2,3,6-trimethylphenol. , 2010, Chemical communications.

[543] F. Lytle. Determination of Interatomic Distances from X-Ray Absorption Fine Structure , 1965 .

[544] F. d’Acapito,et al. Reactivity of Cr Species Grafted on SiO2/Si(100) Surface: A Reflection Extended X-ray Absorption Fine Structure Study down to the Submonolayer Regime , 2007 .

[545] T. Ishikawa,et al. Single-nanometer focusing of hard x-rays by Kirkpatrick–Baez mirrors , 2011, Journal of physics. Condensed matter : an Institute of Physics journal.

[546] C. Lamberti. The use of synchrotron radiation techniques in the characterization of strained semiconductor heterostructures and thin films , 2004 .

[547] J. Grunwaldt,et al. Combining XRD and EXAFS with on-Line Catalytic Studies for in situ Characterization of Catalysts , 2002 .

[548] Y. Nishino,et al. Photon interference x-ray absorption fine structure , 2001 .

[549] G. Thornton,et al. Low-coverage condensation of K on TiO2(110) 1 × 1 , 2005 .

[550] Ian D. Williams,et al. Tetravalent titanium, zirconium, and cerium oxo and peroxo complexes containing an imidodiphosphinate ligand. , 2012, Inorganic chemistry.

[551] G. Bellussi,et al. Framework composition of titanium silicalite-1 , 1992 .

[552] W. Liu,et al. Subnanometric Pd Particles Stabilized Inside Highly Cross-Linked Polymeric Supports , 2010 .

[553] W. Schaich. Comment on the Theory of Extended X-Ray-Absorption Fine Structure , 1973 .

[554] T. Ressler,et al. Redox Behavior of Copper Oxide /Zinc Oxide Catalysts in the Steam Reforming of Methanol studied by in situ X-ray Diffraction and Absorption Spectroscopy , 2001 .

[555] G. Ghiotti,et al. IR investigation of polymerization centres of the Phillips Catalyst. , 1988 .

[556] A. Corma,et al. Bridging homogeneous and heterogeneous catalysis with MOFs: “Click” reactions with Cu-MOF catalysts , 2010 .

[557] J. Fierro,et al. Hydrogenation of aromatics over Au-Pd/SiO2-Al2O3 catalysts; support acidity effect , 2004 .

[558] V. Serin,et al. EXELFS as a structural tool for studies of low Z-elements , 1992 .

[559] R. Revel,et al. A new X-ray absorption experimental set-up dedicated to DeNOx catalysis , 1999 .

[560] Crystallography: past and present , 2007 .

[561] B. Weckhuysen,et al. Snapshots of a working catalyst: possibilities and limitations of in situ spectroscopy in the field of heterogeneous catalysis. , 2002, Chemical communications.

[562] Axel E. Lindh. Zur Kenntnis desK-Röntgenabsorptionsspektrums der Elemente Ni, Cu und Zn , 1930 .

[563] Qinghong Zhang,et al. Characterizations and catalytic properties of Cr-MCM-41 prepared by direct hydrothermal synthesis and template-ion exchange , 2003 .

[564] Josef Hormes,et al. A grazing incidence surface X-ray absorption fine structure (GIXAFS) study of alkanethiols adsorbed on Au, Ag, and Cu , 2000 .

[565] Christian Spielmann,et al. Femtosecond x-ray science , 2006 .

[566] S. George,et al. X-ray magnetic circular dichroism—a high energy probe of magnetic properties , 2005 .

[567] B. Dobson,et al. COMBINED QUEXAFS-XRD - A NEW TECHNIQUE IN HIGH-TEMPERATURE MATERIALS CHEMISTRY - AN ILLUSTRATIVE IN-SITU STUDY OF THE ZINC OXIDE-ENHANCED SOLID-STATE PRODUCTION OF CORDIERITE FROM A PRECURSOR ZEOLITE , 1993 .

[568] Marc R. Knecht,et al. Synthesis and Characterization of Pt Dendrimer-Encapsulated Nanoparticles: Effect of the Template on Nanoparticle Formation , 2008 .

[569] M. Fernández-García,et al. "Oxidationless" promotion of rapid palladium redispersion by oxygen during redox CO/(NO+O2) cycling. , 2007, Angewandte Chemie.

[570] R. W. Joyner,et al. The local structure of aluminium sites in zeolites , 2004 .

[571] J. Grunwaldt,et al. Visualizing a Catalyst at Work during the Ignition of the Catalytic Partial Oxidation of Methane , 2009 .

[572] Randall Q. Snurr,et al. Ultrahigh Porosity in Metal-Organic Frameworks , 2010, Science.

[573] J. Long,et al. Introduction to metal-organic frameworks. , 2012, Chemical reviews.

[574] M. Nachtegaal,et al. Dynamic Structure Changes of a Heterogeneous Catalyst within a Reactor: Oscillations in CO Oxidation over a Supported Platinum Catalyst , 2010 .

[575] J. Haase. Surface structure determinations using X-ray absorption spectroscopy , 1996 .

[576] N. Takagi,et al. In situ observation of platinum sintering on ceria-based oxide for autoexhaust catalysts using Turbo-XAS , 2011 .

[577] C. Lamberti,et al. Alumina-supported copper chloride: 3. Effect of exposure to ethylene , 2001 .

[578] Ian D. Williams,et al. A chemically functionalizable nanoporous material (Cu3(TMA)2(H2O)3)n , 1999 .

[579] A. Cheetham,et al. Adsorption of molecular hydrogen on coordinatively unsaturated Ni(II) sites in a nanoporous hybrid material. , 2006, Journal of the American Chemical Society.

[580] John Meurig Thomas,et al. Combined EXAFS and XRD for the in situ structural elucidation of solid catalysts under operating conditions , 1993 .

[581] Grant Bunker. Introduction to XAFS: Index , 2010 .

[582] G. Bond. Source of the activation energy in heterogeneously catalysed reactions , 1993 .

[583] R. Greegor,et al. Structure of bimetallic clusters. Extended x‐ray absorption fine structure (EXAFS) studies of Os–Cu clusters , 1981 .

[584] C. Lamberti,et al. Co-ordination and oxidation changes undergone by iron species in Fe-silicalite upon template removal, activation and interaction with N2O: an in situ X-ray absorption study , 2002 .

[585] F. Heinrich,et al. Fe–ZSM-5 Catalysts for the Selective Reduction of NO by Isobutane—The Problem of the Active Sites , 2002 .

[586] F. Bonino,et al. AM-6: a microporous one-dimensional ferromagnet. , 2009, Dalton transactions.

[587] T. Shimada,et al. Irreversible Change in the NO Adsorption State on Pt(111) under High Pressure Studied by AP-XPS, NEXAFS, and STM† , 2010 .

[588] I. Ivanova,et al. Ni-, Co-, Fe- and Zn-containing silicalites-1 in propane conversion , 2010 .

[589] C. David,et al. A von Hamos x-ray spectrometer based on a segmented-type diffraction crystal for single-shot x-ray emission spectroscopy and time-resolved resonant inelastic x-ray scattering studies. , 2012, The Review of scientific instruments.

[590] G. Busca,et al. Production of hydrogen from oxidative steam reforming of methanol: I. Preparation and characterization of Cu/ZnO/Al2O3 catalysts from a hydrotalcite-like LDH precursor , 2004 .

[591] Chick C. Wilson,et al. Structural investigation of TS-1: determination of the true nonrandom titanium framework substitution and silicon vacancy distribution from powder neutron diffraction studies using isotopes , 2001 .

[592] R. Bal,et al. Redox and catalytic chemistry of Ti in titanosilicate molecular sieves: an EPR investigation , 2000 .

[593] C. Lamberti,et al. On the fraction of CrII sites involved in the C2H4 polymerization on the Cr/SiO2 Phillips catalyst: a quantification by FTIR spectroscopy. , 2006, Physical chemistry chemical physics : PCCP.

[594] A. Ankudinov,et al. New developments in NEXAFS/EXAFS theory , 1998 .

[595] B. Weckhuysen,et al. Promotion effects in the oxidation of CO over zeolite-supported Pt nanoparticles. , 2005, The journal of physical chemistry. B.

[596] C. Lamberti,et al. Advanced X-ray absorption and emission spectroscopy: in situ catalytic studies. , 2010, Chemical Society reviews.

[597] J. Smith,et al. Silicalite, a new hydrophobic crystalline silica molecular sieve , 1978, Nature.

[598] T. Shibata,et al. Applying very high resolution microfocus X–ray CT and 3–D reconstruction to the human auditory apparatus , 1996, Nature Medicine.

[599] A. Dent,et al. Simultaneous Determination of Structural and Kinetic Parameters Characterizing the Interconversion of Highly Dispersed Species: the Interaction of NO with RhI(CO)2/γ-Al2O3 , 2001 .

[600] R. Kronig. Zur Theorie der Feinstruktur in den Röntgenabsorptionsspektren. III , 1932 .

[601] A. Beale,et al. Closing the operando gap: the application of high energy photons for studying catalytic solids at work , 2011 .

[602] O. Shekhah,et al. MOF thin films: existing and future applications. , 2011, Chemical Society reviews.

[603] T. Ressler,et al. Curved Crystal Transmission Optics for Energy-Dispersive X-ray Absorption Spectroscopy. , 1995, Journal of synchrotron radiation.

[604] C. Lamberti,et al. Quantum-size effects in the titanosilicate molecular sieve , 1997 .

[605] J. Bokhoven,et al. The interaction of aromatic molecules with the acid site in zeolite H-Beta as observed through a newly discovered Fano resonance at the Al K edge , 2001 .

[606] C. Lamberti,et al. Calorimetric and IR spectroscopic study of the interaction of NH3 with variously prepared defective silicalites: Comparison with ab initio computational data , 2002 .

[607] A. Corma,et al. Infrared spectroscopic investigation of titanium in zeolites. A new assignment of the 960 cm–1 band , 1993 .

[608] R. Prins,et al. Fe/ZSM-5 Prepared by Sublimation of FeCl3: The Structure of the Fe Species as Determined by IR, 27Al MAS NMR, and EXAFS Spectroscopy , 2000 .

[609] Bartolomeo Civalleri,et al. Disclosing the Complex Structure of UiO-66 Metal Organic Framework: A Synergic Combination of Experiment and Theory , 2011 .

[610] D. Olson,et al. Separation of hydrocarbons with a microporous metal-organic framework. , 2006, Angewandte Chemie.

[611] K. Tsutsumi,et al. Fine Structures of X-ray Absorption Spectra Of Cobalt in the Face Centered Cubic Lattice and Close-packed Hexagonal Lattice , 1957 .

[612] B. Weckhuysen,et al. Intergrowth structure of zeolite crystals as determined by optical and fluorescence microscopy of the template-removal process. , 2007, Angewandte Chemie.

[613] M. Kurmoo. Magnetic metal-organic frameworks. , 2009, Chemical Society reviews.

[614] A. Dent. Development of Time-Resolved XAFS Instrumentation for Quick EXAFS and Energy-Dispersive EXAFS Measurements on Catalyst Systems , 2002 .

[615] B. Weckhuysen,et al. New frontiers in X-ray spectroscopy in heterogeneous catalysis: Using Fe/ZSM-5 as test-system , 2005 .

[616] A. Dent,et al. Synchronous, time resolved, diffuse reflectance FT-IR, energy dispersive EXAFS (EDE) and mass spectrometric investigation of the behaviour of Rh catalysts during NO reduction by CO. , 2004, Chemical Communications.

[617] Keiji Nakagawa,et al. Rapid preparation of flexible porous coordination polymer nanocrystals with accelerated guest adsorption kinetics. , 2010, Nature chemistry.

[618] P. Rangsunvigit,et al. Phenol hydroxylation using Ti- and Sn-containing silicalitesElectronic supplementary information (ESI) available: XRD pattern of Ti?Sn?S-1s. See http://www.rsc.org/suppdata/cc/b3/b303455k/ , 2003 .

[619] Ejm Emiel Hensen,et al. Chemistry of N2O decomposition on active sites with different nature : Effect of high-temperature treatment of Fe/ZSM-5 , 2006 .

[620] Bert M. Weckhuysen,et al. Kβ-detected XANES of framework-substituted FeZSM-5 zeolites , 2004 .

[621] C. Lamberti,et al. Direct IR observation of vibrational properties of carbonyl species formed on Pd nano-particles supported on amorphous carbon: comparison with Pd/SiO2-Al2O3. , 2006, Physical chemistry chemical physics : PCCP.

[622] E. Guillon,et al. Co‐Adsorption of Copper(II) and 3‐Amino‐1,2,4‐triazole at a Water–Natural Macromolecular Compound Interface: Molecular Structure from Adsorption Isotherms Combined with X‐ray Absorption Measurements , 2005 .

[623] R. Boehler. High‐pressure experiments and the phase diagram of lower mantle and core materials , 2000 .

[624] Koen Janssens,et al. Synchrotron-based X-ray absorption spectroscopy for art conservation: looking back and looking forward. , 2010, Accounts of chemical research.

[625] J. Hanson,et al. Nanostructured oxides in chemistry: characterization and properties. , 2004, Chemical reviews.

[626] G. Comelli,et al. Adsorption and temperature-dependent decomposition of SO2 on Ni(110): an XPS and XAFS study , 1998 .

[627] T. Stemmler,et al. XAFS OF DINUCLEAR METAL SITES IN PROTEINS AND MODEL COMPOUNDS , 1995 .

[628] W. O'grady,et al. Understanding atomic x-ray absorption fine structure in x-ray absorption spectra , 1998 .

[629] Craig M. Brown,et al. Hydrogen storage and carbon dioxide capture in an iron-based sodalite-type metal–organic framework (Fe-BTT) discovered via high-throughput methods , 2010 .

[630] P. Ratnasamy,et al. Reactive Oxygen Species in Titanosilicates TS-1 and TiMCM-41: An In Situ EPR Spectroscopic Study , 2001 .

[631] B. Weckhuysen,et al. A three-site Langmuir adsorption model to elucidate the temperature, pressure, and support dependence of the hydrogen coverage on supported Pt particles , 2007 .

[632] G. Lindsay. Über die Feinstruktur in derK-Absorptionskante von Kalium , 1931 .

[633] M. Newton. Dynamic adsorbate/reaction induced structural change of supported metal nanoparticles: heterogeneous catalysis and beyond. , 2008, Chemical Society reviews.

[634] J. Grunwaldt,et al. X-ray absorption spectroscopy under reaction conditions: suitability of different reaction cells for combined catalyst characterization and time-resolved studies , 2004 .

[635] J. Hazemann,et al. Quantitative analysis of x-ray absorption near edge structure data by a full multiple scattering procedure: the Fe-CO geometry in photolyzed carbonmonoxy-myoglobin single crystal. , 2001, Physical review letters.

[636] M. Bowker,et al. The adsorption and decomposition of formic acid on Cu {110} , 1996 .

[637] T. I. Morrison,et al. Re-investigation of titanium silicalite by X-ray absorption spectroscopy: Are the novel titanium sites real? , 1993 .

[638] F. Lytle,et al. Structure of bimetallic clusters. Extended x-ray absorption fine structure (EXAFS) studies of Ru--Cu clusters , 1980 .

[639] R. Sheldon,et al. Oxidative Transformations of Organic Compounds Mediated by Redox Molecular Sieves , 1997 .

[640] Paul T. Barger,et al. The characteristics of SAPO-34 which influence the conversion of methanol to light olefins , 1999 .

[641] J. Duraud,et al. The initial stages of the growth of copper on a (1 × 1) and a (√31 × √31)R ± 9° α-Al2O3(0001) surface , 1996 .

[642] Matthias Bauer,et al. X-Ray absorption in homogeneous catalysis research: the iron-catalyzed Michael addition reaction by XAS, RIXS and multi-dimensional spectroscopy. , 2010, Physical chemistry chemical physics : PCCP.

[643] M Newville,et al. ATHENA, ARTEMIS, HEPHAESTUS: data analysis for X-ray absorption spectroscopy using IFEFFIT. , 2005, Journal of synchrotron radiation.

[644] S J L Billinge,et al. PDFfit2 and PDFgui: computer programs for studying nanostructure in crystals , 2007, Journal of physics. Condensed matter : an Institute of Physics journal.

[645] B. Gates,et al. GAMMA -AL2O3-SUPPORTED RE-PT CLUSTER CATALYST PREPARED FROM RE2PT(CO)12: CHARACTERIZATION BY EXTENDED X-RAY ABSORPTION FINE STRUCTURE SPECTROSCOPY AND CATALYSIS OF METHYLCYCLOHEXANE DEHYDROGENATION , 1997 .

[646] D. Sayers,et al. Dispersive XAS studies of the reduction kinetics of a highly dispersed supported catalyst , 1989 .

[647] H. Fricke. The K-Characteristic Absorption Frequencies for the Chemical Elements Magnesium to Chromium , 1920 .

[648] Michael O'Keeffe,et al. Systematic Design of Pore Size and Functionality in Isoreticular MOFs and Their Application in Methane Storage , 2002, Science.

[649] S. Chambers,et al. Elastic scattering and interference of backscattered primary, Auger and X-ray photoelectrons at high kinetic energy: principles and applications , 1992 .

[650] R. Schlögl,et al. Characterisation of active phases of a copper catalyst for methanol oxidation under reaction conditions: an in situ X-ray absorption spectroscopy study in the soft energy range , 2001 .

[651] Donald H. Bilderback,et al. Review of capillary x-ray optics from the 2nd International Capillary Optics Meeting , 2003 .

[652] P. Mantica,et al. β-decay studies of neutron-rich nuclei , 2005 .

[653] C. Lamberti,et al. Effect of Ti insertion in the silicalite framework on the vibrational modes of the structure: an ab initio, and vibrational study , 2001 .

[654] C. Arean,et al. Vibrational and optical spectroscopic studies on copper-exchanged ferrierite , 2002 .

[655] A. Corma,et al. New Aluminosilicate and Titanosilicate Delaminated Materials Active for Acid Catalysis, and Oxidation Reactions Using H2O2 , 2000 .

[656] V. Prasad,et al. Correlating particle size and shape of supported Ru/gamma-Al2O3 catalysts with NH3 decomposition activity. , 2009, Journal of the American Chemical Society.

[657] A. Jess,et al. Pt@MOF-177: synthesis, room-temperature hydrogen storage and oxidation catalysis. , 2008, Chemistry.

[658] C. Lamberti,et al. Direct Evidence of Highly Dispersed Iron in Fe–silicalite: A Raman Spectroscopic Study , 2011 .

[659] D. P. Woodruff,et al. Adsorbate structure determination on surfaces using photoelectron diffraction , 1994 .

[660] G. Bellussi,et al. Synthesis of propylene oxide from propylene and hydrogen peroxide catalyzed by titanium silicalite , 1991 .

[661] B. Rieger,et al. Composition optimization of silica-supported copper (II) chloride substance for phosgene production , 2009 .

[662] R. Morris,et al. Induction of chiral porous solids containing only achiral building blocks. , 2010, Nature chemistry.

[663] B. Weckhuysen,et al. The siting of Cu(II) in mordenite: a theoretical spectroscopic study , 2002 .

[664] M. Harada,et al. Atomic XAFS for a bromide ion bound on anion-exchange resin in water. , 2001, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry.

[665] H. Ebert. Magneto-optical effects in transition metal systems , 1996 .

[666] T. Schedel-Niedrig,et al. High-pressure soft X-ray absorption spectroscopy: application of a new in situ spectroscopic method in catalysis research , 1999 .

[667] A. Ankudinov,et al. Pt L-edge XANES as a probe of Pt clusters. , 2001, Journal of synchrotron radiation.

[668] C. Lamberti. Electron-hole reduced effective mass in monoatomic ...-O-Ti-O-Ti-O-... quantum wires embedded in the siliceous crystalline matrix of ETS-10 , 1999 .

[669] H. Petersen. Zur Theorie der Röntgenabsorption molekularer Gase , 1932 .

[670] D. P. Woodruff,et al. A structural study of the interaction of SO2 with Cu(111) , 2000 .

[671] M. Hay,et al. X-ray absorption spectroscopy of aqueous aluminum-organic complexes. , 2010, The journal of physical chemistry. A.

[672] D. Doren,et al. Photocatalytic Activity of Vanadium-Substituted ETS-10 , 2007 .

[673] A. Soldatov,et al. Quantitative local structure refinement from XANES: multi-dimensional interpolation approach. , 2006, Journal of synchrotron radiation.

[674] A. Bell,et al. An in situ Al K-edge XAS investigation of the local environment of H+- and Cu+-exchanged USY and ZSM-5 zeolites. , 2006, The journal of physical chemistry. B.

[675] R. Prins,et al. X-ray absorption investigations on Ti-containing zeolites , 1992 .

[676] R. Benfield. Mean coordination numbers and the non-metal–metal transition in clusters , 1992 .

[677] B. Weckhuysen,et al. Infrared and Raman imaging of heterogeneous catalysts. , 2010, Chemical Society reviews.

[678] G. Thornton,et al. Structure of Atomic and Molecular Adsorbates on Low-Miller-Index ZnO Surfaces Using X-ray Absorption Spectroscopy , 2002 .

[679] John B. Pendry,et al. Theory of the extended x-ray absorption fine structure , 1975 .

[680] C. Lamberti,et al. Local structure of Pr3+ in fluorozirconate glasses , 1999 .

[681] Unni Olsbye,et al. Space- and time-resolved in-situ spectroscopy on the coke formation in molecular sieves: methanol-to-olefin conversion over H-ZSM-5 and H-SAPO-34. , 2008, Chemistry.

[682] G. Mickelson,et al. Simple flow through reaction cells for in situ transmission and fluorescence x-ray-absorption spectroscopy of heterogeneous catalysts , 2006 .

[683] X. D. Wang,et al. Synthesis of b‐Oriented TS‐1 Films on Chitosan‐Modified α‐Al2O3 Substrates , 2006 .

[684] Seda Keskin,et al. Can metal-organic framework materials play a useful role in large-scale carbon dioxide separations? , 2010, ChemSusChem.

[685] R. Kumar,et al. Catalytic properties of crystalline titanium silicalites. II, Hydroxylation of phenol with hydrogen peroxide over TS-1 zeolites , 1991 .

[686] V. Aksenov,et al. Development of methods of EXAFS spectroscopy on synchrotron radiation beams: Review , 2006 .

[687] Richard Blom,et al. Application of metal–organic frameworks with coordinatively unsaturated metal sites in storage and separation of methane and carbon dioxide , 2009 .

[688] R. Bagatin,et al. Selective oxidations with hydrogen peroxide and titanium silicalite catalyst , 1999 .

[689] Mehl,et al. Angular momentum branching ratios for electron-induced ionization: Atomic and model calculations. , 1987, Physical review. B, Condensed matter.

[690] A. Proctor,et al. Quantitative analysis of mixed oxidation states in supported catalysts , 1994 .

[691] P. Battle,et al. Study of the Iron-phosphorus-oxygen System by Mössbauer Effect, Neutron Diffraction, Magnetic Susceptibility, and Analytical Electron Microscopy: Some Pitfalls and Solutions in the Analysis of a Complex Mixture , 1983 .

[692] V. Parmon,et al. In situ MRI of the structure and function of multiphase catalytic reactors , 2005 .

[693] Adriano Zecchina,et al. Probing the surfaces of heterogeneous catalysts by in situ IR spectroscopy. , 2010, Chemical Society reviews.

[694] H. Hayashi. SIM‐RIXS: a program to simulate resonant inelastic X‐ray scattering , 2011 .

[695] F. Geobaldo,et al. DRS UV-Vis and EPR spectroscopy of hydroperoxo and superoxo complexes in titanium silicalite , 1992 .

[696] D. E. Keller,et al. Combining operando techniques in one spectroscopic-reaction cell: New opportunities for elucidating the active site and related reaction mechanism in catalysis , 2006 .

[697] V. Parmon,et al. Iron complexes in zeolites as a new model of methane monooxygenase , 1997 .

[698] R. Theissmann,et al. X-ray absorption studies on alloy formation in different carbon-supported Pt–Ru electrocatalysts , 2004 .

[699] B. Weckhuysen,et al. In Situ X-ray Absorption of Co/Mn/TiO2 Catalysts for Fischer−Tropsch Synthesis , 2004 .

[700] W. O'grady,et al. Determination of H Adsorption Sites on Pt/C Electrodes in HClO4 from Pt L23 X-ray Absorption Spectroscopy , 2004 .

[701] D. Nachtigallová,et al. Nature of the Cu+-NO bond in the gas phase and at different types of Cu+ sites in zeolite catalysts , 2004 .

[702] Jean-François Méhaut,et al. High Performance Computing / Le Calcul Intensif Daubechies wavelets for high performance electronic structure calculations: The BigDFT project , 2011 .

[703] M. Chergui,et al. Structural analysis of ultrafast extended x-ray absorption fine structure with subpicometer spatial resolution: application to spin crossover complexes. , 2009, The Journal of chemical physics.

[704] J. Bokhoven,et al. Evolution of Fe species during the synthesis of over-exchanged Fe/ZSM5 obtained by chemical vapor deposition of FeCl3 , 2003 .

[705] B. Dobson,et al. Quick Fluorescence XAFS: A Technique for Recording Fluorescence X-ray Absorption Spectra during Chemical/Biochemical Reactions , 1993 .

[706] Gordon E. Brown,et al. Coordination chemistry of Ti(IV) in silicate glasses and melts: I. XAFS study of titanium coordination in oxide model compounds , 1996 .

[707] Mathieu Taillefumier,et al. X-ray absorption near-edge structure calculations with the pseudopotentials: Application to the K edge in diamond and α-quartz , 2002 .

[708] K. Klementev. Extraction of the fine structure from x-ray absorption spectra , 2001 .

[709] C. Jacobsen,et al. Catalytic epoxidation of alkenes with hydrogen peroxide over first mesoporous titanium-containing zeolite , 2000 .

[710] R. Kumar,et al. Reactive oxo-titanium species in titanosilicate molecular sieves: EPR investigations and structure–activity correlations , 2003 .

[711] A. Corma,et al. MOFs as catalysts: Activity, reusability and shape-selectivity of a Pd-containing MOF , 2007 .

[712] J. Bokhoven,et al. Nature of ≡SiOCrO2Cl and (≡SiO)2CrO2 Sites Prepared by Grafting CrO2Cl2 onto Silica , 2008 .

[713] T. Schildhauer,et al. Quantitative Analysis of Modulated Excitation X-ray Absorption Spectra: Enhanced Precision of EXAFS Fitting , 2012 .

[714] A. Corma,et al. Cu and Au metal-organic frameworks bridge the gap between homogeneous and heterogeneous catalysts for alkene cyclopropanation reactions. , 2010, Chemistry.

[715] G. Vayssilov. Structural and Physicochemical Features of Titanium Silicalites , 1997 .

[716] T. Yokoyama,et al. Temperature dependence of EXAFS spectra of supported small metal particles , 1991 .

[717] R. Sanz,et al. Turning TS-1 zeolite into a highly active catalyst for olefin epoxidation with organic hydroperoxides. , 2009, Chemical communications.

[718] F. d’Acapito,et al. Do we have a probe for the initial stages of solid state reactions , 2003 .

[719] C. Lamberti,et al. Vibrational properties of Cr(II) centers on reduced Phillips catalysts highlighted by resonant Raman spectroscopy. , 2006, Chemphyschem : a European journal of chemical physics and physical chemistry.

[720] R. Vedrinskii,et al. Multiple Scattering Approach to the XANES Theory of Alkali Halide Crystals , 1986, March 1.

[721] B. Dobson,et al. Quick Fluorescence-EXAFS: an Improved Method for Collection of Conventional XAFS Data, an Improved Method for Collection of Conventional XAFS Data and for Studying Reaction Intermediates in Dilute Systems. , 1995, Journal of synchrotron radiation.

[722] G. Mul,et al. Characterization of Fe sites in Fe-zeolites by FTIR spectroscopy of adsorbed NO: are the spectra obtained in static vacuum and dynamic flow set-ups comparable? , 2010, Physical chemistry chemical physics : PCCP.

[723] Bruce Ravel,et al. The UWXAFS analysis package : philosophy and details , 1995 .

[724] Omar K Farha,et al. Rational design, synthesis, purification, and activation of metal-organic framework materials. , 2010, Accounts of chemical research.

[725] A. Bell,et al. An Infrared Study of NO Decomposition over Cu-ZSM-5 , 1995 .

[726] John Meurig Thomas,et al. In situ combined X‐ray absorption spectroscopic and X‐ray diffractometric studies of solid catalysts , 1999 .

[727] C. Lamberti,et al. Effect of reduction in liquid phase on the properties and the catalytic activity of Pd/Al2O3 catalysts , 2012 .

[728] J. Lunsford,et al. Silica-supported chromium catalysts for ethylene polymerization , 1985 .

[729] C. Lamberti,et al. Ti-Peroxo Species in the TS-1/H2O2/H2O System , 2004 .

[730] Jinghua Guo,et al. Electronic structure of phospho-olivines Li(x)FePO4 (x = 0, 1) from soft-x-ray-absorption and -emission spectroscopies. , 2005, The Journal of chemical physics.

[731] Guy Jennings,et al. Determining Quantitative Kinetics and the Structural Mechanism for Particle Growth in Porous Templates , 2011 .

[732] K. Xie,et al. Studies of the interaction between CuCl and HY zeolite for preparing heterogeneous CuI catalyst , 2001 .

[733] C. Lamberti,et al. The role of Al in the structure and reactivity of iron centers in Fe-ZSM-5-based catalysts: a statistically based infrared study , 2003 .

[734] Lothar Mussmann,et al. Influence of NO2 on the selective catalytic reduction of NO with ammonia over Fe-ZSM5 , 2006 .

[735] G. Ricchiardi,et al. The effect of hydration on structure and location of Ti-sites in Ti-silicalite catalysts. A computational study , 2000 .

[736] Xiaoyi Zhang,et al. X-ray snapshots for metalloporphyrin axial ligation , 2010 .

[737] C. Lamberti,et al. Influence of additives in defining the active phase of the ethylene oxychlorination catalyst. , 2010, Physical chemistry chemical physics : PCCP.

[738] Anatoly I. Frenkel,et al. Combining X-ray Absorption and X-ray Diffraction Techniques for in Situ Studies of Chemical Transformations in Heterogeneous Catalysis: Advantages and Limitations , 2011 .

[739] M. Hirscher,et al. Hydrogen adsorption in a nickel based coordination polymer with open metal sites in the cylindrical cavities of the desolvated framework. , 2006, Chemical communications.

[740] A. Corma,et al. Characterization and Catalytic Activity of MCM-22 and MCM-56 Compared with ITQ-2 , 2000 .

[741] S. Oyama,et al. Mechanistic study of propane selective oxidation with H2 and O2 on Au/TS-1 , 2008 .

[742] G. Spoto,et al. Silicalite characterization. 2. IR spectroscopy of the interaction of carbon monoxide with internal and external hydroxyl groups , 1992 .

[743] Irina Snigireva,et al. Imaging by parabolic refractive lenses in the hard X-ray range , 1999 .

[744] F. D. Groot,et al. High-Resolution X-ray Emission and X-ray Absorption Spectroscopy , 2001 .

[745] C. Lamberti,et al. Structure and redox activity of copper sites isolated in a nanoporous P4VP polymeric matrix. , 2008, Angewandte Chemie.

[746] O. Terasaki,et al. Delamination of Ti-MWW and High Efficiency in Epoxidation of Alkenes with Various Molecular Sizes , 2004 .

[747] C. Pinel,et al. Solvent free base catalysis and transesterification over basic functionalised Metal-Organic Frameworks , 2009 .

[748] J. Moulijn,et al. Comparison of the Performance of Activated Carbon-Supported Noble Metal Catalysts in the Hydrogenolysis of CCl2F2☆ , 1998 .

[749] Pio Forzatti,et al. Higher Alcohol Synthesis , 1991 .

[750] C. Lamberti,et al. Mono-, Di-, and Tricarbonylic Species in Copper(I)-Exchanged Zeolite ZSM-5: Comparison with Homogeneous Copper(I) Carbonylic Structures , 1999 .

[751] A. Marcelli,et al. Three particle correlation function of metal ions in tetrahedral coordination determined by XANES , 1986 .

[752] G Giuli,et al. Sulfur-metal orbital hybridization in sulfur-bearing compounds studied by X-ray emission spectroscopy. , 2010, Inorganic chemistry.

[753] P. Sadler,et al. X-ray transient absorption structural characterization of the 3MLCT triplet excited state of cis-[Ru(bpy)2(py)2]2+. , 2013, Dalton transactions.

[754] R. D. Shannon,et al. Properties of boron-substituted ZSM-5 and ZSM-11 zeolites , 1987 .

[755] B. Gates,et al. EXAFS characterization of supported metal-complex and metal-cluster catalysts made from organometallic precursors , 2000 .

[756] K. Wilson,et al. Evidence for the surface-catalyzed Suzuki-Miyaura reaction over palladium nanoparticles: an operando XAS study. , 2010, Angewandte Chemie.

[757] M Newville,et al. EXAFS analysis using FEFF and FEFFIT. , 2001, Journal of synchrotron radiation.

[758] Chen,et al. Soft-x-ray magnetic circular dichroism at the L2,3 edges of nickel. , 1990, Physical review. B, Condensed matter.

[759] B. Weckhuysen,et al. Diffuse reflectance spectroscopy study of the thermal genesis and molecular structure of chromium-supported catalysts , 1994 .

[760] C. Catlow,et al. The Three-Dimensional Structure of the Titanium-Centered Active Site during Steady-State Catalytic Epoxidation of Alkenes , 2001 .

[761] Bedzyk,et al. Electrical Double-Layer Structure at the Rutile-Water Interface as Observed in Situ with Small-Period X-Ray Standing Waves. , 2000, Journal of colloid and interface science.

[762] K. Tsutsumi,et al. Fine Structures of X-ray K Absorption Spectra of Copper in Various Copper Compounds , 1957 .

[763] J. Rehr,et al. Theoretical approaches to x-ray absorption fine structure , 2000 .

[764] B. Weckhuysen,et al. COMBINED DRS-RS-EXAFS-XANES-TPR STUDY OF SUPPORTED CHROMIUM CATALYSTS , 1995 .

[765] Freek Kapteijn,et al. Cobalt particle size effects in the Fischer-Tropsch reaction studied with carbon nanofiber supported catalysts. , 2006, Journal of the American Chemical Society.

[766] K. Wilson,et al. Reaction-driven surface restructuring and selectivity control in allylic alcohol catalytic aerobic oxidation over Pd. , 2011, Journal of the American Chemical Society.

[767] R. Prins,et al. Preparation of Overexchanged Fe–ZSM-5 Zeolites Using the Ferrous Oxalate Method: Why Does It Fail? , 2000 .

[768] C. Lamberti,et al. Coordination and oxidation changes undergone by iron species in Fe-MCM-22 upon template removal, activation and red–ox treatments: an in situ IR, EXAFS and XANES study , 2005 .

[769] G. E. van Dorssen,et al. An atomic X-ray absorption fine structure study of the influence of hydrogen chemisorption and support on the electronic structure of supported Pt particles , 2000 .

[770] J. V. van Bokhoven,et al. Design and construction on an in situ cell for catalytic studies on elements with 12 < Z < 20. , 1999, Journal of synchrotron radiation.

[771] C. Lamberti,et al. LOW-TEMPERATURE FOURIER TRANSFORM INFRARED STUDY OF THE INTERACTION OF CO WITH CATIONS IN ALKALI-METAL EXCHANGED ZSM-5 ZEOLITES , 1994 .

[772] M. Sierka,et al. Coordination and siting of Cu+ ions in ZSM-5: A combined quantum mechanics/interatomic potential function study , 1999 .

[773] D. Norman. REVIEW ARTICLE: X-ray absorption spectroscopy (EXAFS and XANES) at surfaces , 1986 .

[774] A. Yaresko,et al. Band-structure theory of dichroism , 2006 .

[775] D. Hartree,et al. A theoretical calculation of the fine structure for the K-absorption band of Ge in GeCl4 , 1934 .

[776] David Fischer,et al. Stereospecific Olefin Polymerization with Chiral Metallocene Catalysts , 1995 .

[777] J. Rehr,et al. High-order multiple-scattering calculations of x-ray-absorption fine structure. , 1992, Physical review letters.

[778] J. Tarascon,et al. In situ Fe XAFS of reversible lithium insertion in a flexible metal organic framework material , 2009 .

[779] Guy Jennings,et al. MLCT state structure and dynamics of a copper(I) diimine complex characterized by pump-probe X-ray and laser spectroscopies and DFT calculations. , 2003, Journal of the American Chemical Society.

[780] S. Bourgeois,et al. A surface EXAFS study of thin nickel deposits on (110) TiO2 surfaces , 1997 .

[781] O. Kitao,et al. Characterization of the VS-1 catalyst using various spectroscopic techniques and its unique photocatalytic reactivity for the decomposition of NO in the absence and presence of C3H8 , 2001 .

[782] Collins,et al. Top-site adsorption for K on Cu(111) and Ni(111) surfaces. , 1993, Physical review. B, Condensed matter.

[783] R. Crooks,et al. X-ray Absorption Study of PdCu Bimetallic Alloy Nanoparticles Containing an Average of ∼64 Atoms , 2009 .

[784] C. Lamberti,et al. Influence of K-doping on a Pd/SiO2-Al2O3 catalyst , 2009 .

[785] Pascal Granger,et al. Catalytic NO(x) abatement systems for mobile sources: from three-way to lean burn after-treatment technologies. , 2011, Chemical reviews.

[786] B. Weckhuysen,et al. The Catalytic Conversion of Thiophenes over Large H‐ZSM‐5 Crystals: An X‐Ray, UV/Vis, and Fluorescence Microspectroscopic Study , 2010 .

[787] M. Anpo,et al. Effect of the addition of propane and distortion of tetrahedral vanadium(V) species in VSiβ zeolites on the photodecomposition of NO , 2003 .

[788] R. Prins,et al. On determining the nuclearity of iron sites in Fe-ZSM-5--a critical evaluation. , 2006, Physical chemistry chemical physics : PCCP.

[789] M. White,et al. A synthetically useful, self-assembling MMO mimic system for catalytic alkene epoxidation with aqueous H2O2. , 2001, Journal of the American Chemical Society.

[790] D. Murzin,et al. Isomerization of linoleic acid over supported metal catalysts , 2003 .

[791] In situ characterization of supported metal catalysts and model surfaces by time-resolved and three-dimensional XAFS techniques , 2003 .

[792] D. P. Woodruff,et al. Structural aspects of the interaction of methyl thiol and dimethyldisulphide with Ni(111) , 1995 .

[793] A. Kotani. Resonant inelastic X-ray scattering in d and f electron systems , 2005 .

[794] R. Dovesi,et al. Titanium-Containing Zeolites. A Periodic ab Initio Hartree−Fock Characterization , 1998 .

[795] R. Nuzzo,et al. Structural Characterization of Carbon-Supported Platinum−Ruthenium Nanoparticles from the Molecular Cluster Precursor PtRu5C(CO)16 , 1997 .

[796] Natoli,et al. Use of general potentials in multiple-scattering theory. , 1986, Physical review. A, General physics.

[797] Q. Zhu,et al. Effect of high-temperature treatment on Fe/ZSM-5 prepared by chemical vapor deposition of FeCl3: I. Physicochemical characterization , 2004 .

[798] C. Serre,et al. Why hybrid porous solids capture greenhouse gases? , 2011, Chemical Society reviews.

[799] Wenbin Lin,et al. Chiral porous coordination networks: rational design and applications in enantioselective processes , 2003 .

[800] K. K. Hii,et al. In situ investigation of the oxidative addition in homogeneous Pd catalysts by synchronised time resolved UV-Vis/EXAFS. , 2006, Chemical communications.

[801] A. Cheetham,et al. On the Nature of Nonframework Cations in a Zeolitic deNOx Catalyst: Cu-Mordenite , 1997 .

[802] Anthony K. Cheetham,et al. Hybrid Inorganic–Organic Solids: An Emerging Class of Nanoporous Catalysts , 2003 .

[803] J. Lercher,et al. Adsorption of SO2 on Ba impregnated metal organic framework materials , 2005 .

[804] J. Spivey,et al. Heterogeneous catalytic synthesis of ethanol from biomass-derived syngas. , 2007, Chemical Society reviews.

[805] Anatoly I. Frenkel,et al. Solving the 3D structure of metal nanoparticles , 2007 .

[806] N. Mott,et al. CXVI. The interpretation of X-ray absorption spectra of solids , 1949 .

[807] C. D. Collier,et al. Metal-organic framework from an anthracene derivative containing nanoscopic cages exhibiting high methane uptake. , 2008, Journal of the American Chemical Society.

[808] M. Chergui,et al. Exploiting EXAFS and XANES for time-resolved molecular structures in liquids , 2008 .

[809] Arturo Martínez-Arias,et al. Dynamic in situ observation of rapid size and shape change of supported Pd nanoparticles during CO/NO cycling. , 2007, Nature materials.

[810] S. Tolbert,et al. High-pressure structural transformations in semiconductor nanocrystals. , 1995, Annual review of physical chemistry.

[811] A. Lamberti,et al. Interaction of CD3CN and pyridine with the Ti(IV) centers of TS-1 catalysts: a spectroscopic and computational study , 2003 .

[812] Abraham M. Shultz,et al. A catalytically active, permanently microporous MOF with metalloporphyrin struts. , 2009, Journal of the American Chemical Society.

[813] Structural Characterization of Multi‐Quantum Wells in Electroabsorption‐Modulated Lasers by using Synchrotron Radiation Micrometer‐Beams , 2010, Advanced materials.

[814] C. Natoli,et al. The MXAN procedure: a new method for analysing the XANES spectra of metalloproteins to obtain structural quantitative information. , 2003, Journal of synchrotron radiation.

[815] Adriano Filipponi,et al. The radial distribution function probed by X-ray absorption spectroscopy , 1994 .

[816] J. Robert,et al. Titanium valence and coordination in synthetic richterite -Ti-richterite amphiboles. A synchrotron-radiation XAS study , 1993 .

[817] G. Bellussi,et al. Amorphous mesoporous silica-alumina with controlled pore size as acid catalysts , 1994 .

[818] G. Deo,et al. Characterization of titania silicalites , 1993 .

[819] R. A. Santen,et al. On the role of aluminum in the selective oxidation of benzene to phenol by nitrous oxide over iron-containing MFI zeolites: an in situ Fe XANES study , 2004 .

[820] T. Nenoff,et al. Radioactive iodine capture in silver-containing mordenites through nanoscale silver iodide formation. , 2010, Journal of the American Chemical Society.

[821] P. Mériaudeau,et al. The role of Ga2O3 and proton acidity on the dehydrogenating activity of Ga2O3-HZSM-5 catalysts: evidence of a bifunctional mechanism , 1990 .

[822] D. Coster. Über die Absorptionsspektren im Röntgengebiet , 1924 .

[823] G. Calzaferri,et al. The electronic structure of Cu+, Ag+, and Au+ zeolites. , 2003, Chemical Society reviews.

[824] B. Gates,et al. Low‐cost, heated, and/or cooled flow‐through cell for transmission x‐ray absorption spectroscopy , 1996 .

[825] Y. Nishino,et al. Holographies and EXAFS in quantum electrodynamics , 1999 .

[826] G. Bellussi,et al. Stability of Ti in MFI and Beta structures: a comparative study , 1999 .

[827] K. Hungerbühler,et al. HERFD XAS/ATR-FTIR batch reactor cell. , 2012, Physical chemistry chemical physics : PCCP.

[828] Brian H. Toby,et al. Crystal Structure of Dehydrated CsZSM-5 (5.8Al): Evidence for Nonrandom Aluminum Distribution† , 2000 .

[829] Glenn J. Sunley,et al. Detailed structural investigation of the grafting of [Ta(=CHtBu)(CH2tBu)3] and [Cp*TaMe4] on silica partially dehydroxylated at 700 degrees C and the activity of the grafted complexes toward alkane metathesis. , 2004, Journal of the American Chemical Society.

[830] F. d’Acapito,et al. Structure of Homoleptic CuI(CO)3 Cations in CuI-Exchanged ZSM-5 Zeolite: An X-ray Absorption Study , 2000 .

[831] P. Chupas,et al. 3-D Structure of Nanosized Catalysts by High-Energy X-ray Diffraction and Reverse Monte Carlo Simulations: Study of Ru , 2007 .

[832] B. Wichterlová,et al. Siting and Redox Behavior of Cu Ions in CuH-ZSM-5 Zeolites. Cu+ Photoluminescence Study , 1994 .

[833] A. Ankudinov,et al. New developments in the theory and interpretation of X-ray spectra based on fast parallel calculations. , 2003, Journal of synchrotron radiation.

[834] S. Dahl,et al. The role of monomeric iron during the selective catalytic reduction of NOx by NH3 over Fe-BEA zeolite catalysts , 2009 .

[835] J. Nørskov,et al. Asymmetric pair distribution functions in catalysts , 2000 .

[836] Craig M. Brown,et al. Neutron powder diffraction study of D2 sorption in Cu3(1,3,5-benzenetricarboxylate)2. , 2006, Journal of the American Chemical Society.

[837] C. H. Shaw. Secondary Structure in the K Absorption Limit of Germanium Tetrachloride , 1946 .

[838] F. Rey,et al. Heterogeneous catalysts obtained by grafting metallocene complexes onto mesoporous silica , 1995, Nature.

[839] Bert M. Weckhuysen,et al. Local Environment and Nature of Cu Active Sites in Zeolite-Based Catalysts for the Selective Catalytic Reduction of NOx , 2013 .

[840] E. Stern,et al. Development of the EXELFS technique for high accuracy structural information , 1995 .

[841] W. Stenström. Experimentelle Untersuchungen der Röntgenspektra. M‐Reihe , 1918 .

[842] S. Davis,et al. The effect of surface oxygen on hydrocarbon reactions catalyzed by platinum crystal surfaces with variable kink concentrations , 1980 .

[843] E. Stern,et al. Analysis of multiple-scattering XAFS data using theoretical standards , 1995 .

[844] B. D. Ray. Mehrfachabsorption und sekundäreK-Absorptionsgrenze im Röntgengebiet , 1929 .

[845] K. Tsutsumi,et al. On the Fine Structures of X-ray Absorption Spectra of Amorphous Substances The Amorphous State of the Binary System of Nickel-Sulfur. II. , 1955 .

[846] K. Tamaki,et al. Size-selective Lewis acid catalysis in a microporous metal-organic framework with exposed Mn2+ coordination sites. , 2008, Journal of the American Chemical Society.

[847] C. Lamberti,et al. Resonance Raman effects in TS-1: the structure of Ti(IV) species and reactivity towards H2O, NH3 and H2O2: an in situ study , 2003 .

[848] C. Ramsauer,et al. Über den Wirkungsquerschnitt der Gasmoleküle gegenüber langsamen Elektronen , 1921 .

[849] M. Kumar,et al. Reduction of N2O with CO over FeMFI zeolites: influence of the preparation method on the iron species and catalytic behavior , 2004 .

[850] A. Bell,et al. Investigations of the State of Fe in H–ZSM-5 , 1999 .

[851] A. Stein. Advances in Microporous and Mesoporous Solids—Highlights of Recent Progress , 2003 .

[852] Olivier Mathon,et al. Advances in high brilliance energy dispersive X-ray absorption spectroscopy. , 2010, Physical chemistry chemical physics : PCCP.

[853] M. Di Michiel,et al. Nanoparticulate Pd supported catalysts: size-dependent formation of Pd(I)/Pd(0) and their role in CO elimination. , 2011, Journal of the American Chemical Society.

[854] J. Hanson,et al. Quick extended x-ray absorption fine structure instrument with millisecond time scale, optimized for in situ applications. , 2010, The Review of scientific instruments.

[855] H. Dalton,et al. Steady-state kinetic analysis of soluble methane mono-oxygenase from Methylococcus capsulatus (Bath). , 1986, The Biochemical journal.

[856] S. Oyama,et al. Enhanced reactivity of direct propylene epoxidation with H2 and O2 over Ge-modified Au/TS-1 catalysts , 2009 .

[857] N. Toshima,et al. Preparation of Pd−Pt Bimetallic Colloids with Controllable Core/Shell Structures , 1997 .

[858] M. Balasubramanian,et al. Efficient simultaneous reverse Monte Carlo modeling of pair-distribution functions and extended x-ray-absorption fine structure spectra of crystalline disordered materials. , 2012, The Journal of chemical physics.

[859] C. Lamberti,et al. Reactivity of Ti(IV) species hosted in TS-1 towards H2O2-H2O solutions investigated by ab initio cluster and periodic approaches combined with experimental XANES and EXAFS data: a review and new highlights. , 2007, Physical chemistry chemical physics : PCCP.

[860] R. Prins,et al. Origin of the cluster-size effect in the hydrogenation of cinnamaldehyde over supported Au catalysts , 2007 .

[861] F. d’Acapito,et al. Determination of the oxidation and coordination state of copper on different Cu-based catalysts by XANES spectroscopy in situ or in operando conditionsPresented at the International Congress on Operando Spectroscopy, Lunteren, The Netherlands, March 2?6, 2003. , 2003 .

[862] A. Beale,et al. A Combined Multi-Technique In Situ Approach Used to Probe the Stability of Iron Molybdate Catalysts During Redox Cycling , 2009 .

[863] Stefan Goedecker,et al. ABINIT: First-principles approach to material and nanosystem properties , 2009, Comput. Phys. Commun..

[864] C. Lamberti,et al. Response of CPO-27-Ni towards CO, N2 and C2H4. , 2009, Physical chemistry chemical physics : PCCP.

[865] G. Spoto,et al. Low-temperature Fourier-transform infrared investigation of the interaction of CO with nanosized ZSM5 and silicalite , 1992 .

[866] Carlo Lamberti,et al. 0.5 wt.% Pd/C catalyst for purification of terephthalic acid: Irreversible deactivation in industrial plants , 2011 .

[867] A. Kentgens,et al. Determination of gallium in H(Ga)ZSM5 zeolites by 71Ga MAS NMR spectroscopy , 1992 .

[868] F. Cavani,et al. A rationale of the Baeyer-Villiger oxidation of cyclohexanone to ε-caprolactone with hydrogen peroxide: unprecedented evidence for a radical mechanism controlling reactivity. , 2010, Chemistry.

[869] G. Benedek,et al. Measurement of the p to s wave branching ratio of 187Re beta decay from beta environmental fine structure. , 2006, Physical review letters.

[870] M. Anpo,et al. The interaction of NO with copper ions in ZSM5 : an EPR and IR investigation , 1992 .

[871] M. Denecke. Actinide speciation using X-ray absorption fine structure spectroscopy , 2006 .

[872] C. Lamberti,et al. On the first stages of the ethylene polymerization on Cr2+/SiO2 Phillips catalyst: time and temperature resolved IR studies , 2003 .

[873] C. Catlow,et al. Computational and EXAFS Study of the Nature of the Ti(IV) Active Sites in Mesoporous Titanosilicate Catalysts , 1997 .

[874] A. Fletcher,et al. High-capacity hydrogen and nitric oxide adsorption and storage in a metal-organic framework. , 2007, Journal of the American Chemical Society.

[875] C. Lamberti,et al. An in situ temperature dependent IR, EPR and high resolution XANES study on the No/Cu+-ZSM-5 interaction , 2002 .

[876] Alfonso San-Miguel. A program for fast classic or dispersive XAS data analysis in a PC , 1995 .

[877] M. Clerici. The role of the solvent in TS-1 chemistry: active or passive? An early study revisited , 2001 .

[878] Alexis T. Bell,et al. Density Functional Theory Study of Nitrous Oxide Decomposition over Fe- and Co-ZSM-5 , 2002 .

[879] A. Chakraborty,et al. Density Functional Theory Investigations of the Direct Oxidation of Methane on an Fe-Exchanged Zeolite , 2004 .

[880] L. Glasser,et al. Crystal structures with a chabazite framework. II. Hydrated Ca-chabazite at room temperature , 1963 .

[881] Hyunuk Kim,et al. Metathesis in single crystal: complete and reversible exchange of metal ions constituting the frameworks of metal-organic frameworks. , 2009, Journal of the American Chemical Society.

[882] J. Rehr. Recent Developments in Multiple-Scattering Calculations of XAFS and XANES , 1993 .

[883] C. Lamberti,et al. The chemistry of the oxychlorination catalyst: an in situ, time-resolved XANES study. , 2002, Angewandte Chemie.

[884] D. Coster,et al. Über die Feinstruktur der Röntgenabsorptionskanten , 1932 .

[885] P. Citrin. AN OVERVIEW OF SEXAFS DURING THE PAST DECADE , 1986 .

[886] F. d’Acapito,et al. The ReflEXAFS station at the GILDA beamline (BM08) of ESRF. , 2003, Journal of synchrotron radiation.

[887] C. Lamberti,et al. Band resolution techniques and Fourier transform infrared spectra of adsorbed species , 1993 .

[888] E. Arenholz,et al. Enhanced Magnetism of Fe3O4 Nanoparticles with Ga Doping , 2011 .

[889] Lothar Mussmann,et al. Investigation of the selective catalytic reduction of NO by NH3 on Fe-ZSM5 monolith catalysts , 2006 .

[890] R. S. V. Bordwehr. A History of X-ray absorption fine structure , 1989 .

[891] F. Farges. Chromium speciation in oxide-type compounds: application to minerals, gems, aqueous solutions and silicate glasses , 2009 .

[892] F. Lytle,et al. Extended x‐ray absorption fine structure (EXAFS) of supported platinum catalysts , 1978 .

[893] B. Weckhuysen,et al. Noninvasive in situ visualization of supported catalyst preparations using multinuclear magnetic resonance imaging. , 2005, Journal of the American Chemical Society.

[894] R. Feidenhans'l,et al. In situ cell for combined XRD and on-line catalysis tests : studies of Cu-based water gas shift and methanol catalysts , 1991 .

[895] Tadashi Matsushita,et al. An Energy-Dispersive Spectrometer for the Rapid Measurement of X-ray Absorption Spectra Using Synchrotron Radiation , 1983 .

[896] J. Ziegelbauer,et al. Fundamental Investigation of Oxygen Reduction Reaction on Rhodium Sulfide-Based Chalcogenides , 2009 .

[897] U. Bergmann,et al. High-resolution Mn EXAFS of the oxygen-evolving complex in photosystem II: structural implications for the Mn4Ca cluster. , 2005, Journal of the American Chemical Society.

[898] C. Lamberti,et al. XAFS, IR, and UV−Vis Study of the CuI Environment in CuI-ZSM-5 , 1997 .

[899] A. Fontaine,et al. High-focusing Bragg-Crystal polychromator design for energy-dispersive X-ray absorption spectroscopy. , 1998, Journal of synchrotron radiation.

[900] E. Giamello,et al. EPR Investigation of the Electronic Structure of Mononuclear Copper(I) Nitric Oxide Adduct Formed upon Low-Pressure Adsorption of NO onto Cu/ZSM-5 Zeolite , 1997 .

[901] D. Nachtigallová,et al. Characterization of the Cu+ sites in high-silica zeolites interacting with the CO molecule: Combined computational and experimental study , 2003 .

[902] J. D. Hanawalt. Der Einfluß der Temperatur auf dieK-Absorption des Eisens , 1931 .

[903] D. Saldin,et al. Application of the layer Korringa-Kohn-Rostoker method to the calculation of near-edge structure in x-ray-absorption and electron-energy-loss spectroscopy , 1998 .

[904] G. M. Bommarito,et al. X-ray Standing Waves and Surface EXAFS Studies of Electrochemical Interfaces , 1995 .

[905] J. Niemantsverdriet,et al. WORKING SURFACE SCIENCE MODEL FOR THE PHILLIPS ETHYLENE POLYMERIZATION CATALYST : PREPARATION AND TESTING , 1997 .

[906] J. Lunsford,et al. Silica-supported chromium catalysts for ethylene polymerization: The active oxidation states of chromium , 1986 .

[907] F. d’Acapito,et al. Equilibria between peroxo and hydroperoxo species in the titanosilicates: an in situ high-resolution XANES investigation. , 2004, Chemphyschem : a European journal of chemical physics and physical chemistry.

[908] Brian H. Toby,et al. Accuracy of pair distribution function analysis applied to crystalline and non-crystalline materials , 1992 .

[909] S. Mukerjee,et al. CO Coverage/Oxidation Correlated with PtRu Electrocatalyst Particle Morphology in 0.3 M Methanol by In Situ XAS , 2007 .

[910] W. Sachtler,et al. Redox Chemistry of Cu/ZSM-5 , 1996 .

[911] A. Delabie,et al. A reinterpretation of the EPR spectra of Cu(II) in zeolites A, Y and ZK4, based on ab initio cluster model calculations , 2001 .

[912] Lin X. Chen. Taking snapshots of photoexcited molecules in disordered media by using pulsed synchrotron X-rays. , 2004, Angewandte Chemie.

[913] Stern,et al. Analysis of experimental extended x-ray-absorption fine-structure (EXAFS) data using calculated curved-wave, multiple-scattering EXAFS spectra. , 1990, Physical review. B, Condensed matter.

[914] C. Roth,et al. Determination of O[H] and CO coverage and adsorption sites on PtRu electrodes in an operating PEM fuel cell. , 2005, Journal of the American Chemical Society.

[915] Katrin F. Domke,et al. Host-guest geometry in pores of zeolite ZSM-5 spatially resolved with multiplex CARS spectromicroscopy. , 2012, Angewandte Chemie.

[916] V. Caps,et al. Synthesis and catalytic properties of TS-1 with mesoporous/microporous hierarchical structures obtained in the presence of amphiphilic organosilanes , 2010 .

[917] C. Lamberti,et al. Direct evidence of adsorption induced Cr(II) mobility on the SiO(2) surface upon complexation by CO. , 2010, Chemical communications.

[918] Xiao‐Yu Yang,et al. Highly Stable and Reusable Multimodal Zeolite TS‐1 Based Catalysts with Hierarchically Interconnected Three‐Level Micro–Meso–Macroporous Structure , 2011 .

[919] C. Lamberti,et al. EXAFS studies on MFI‐type gallosilicate molecular sieves , 1999 .

[920] D. Sayers,et al. Hydrogen Chemisorption on Silica-Supported Pt Clusters: In Situ X-ray Absorption Spectroscopy , 1997 .

[921] Seth M Cohen,et al. Postsynthetic methods for the functionalization of metal-organic frameworks. , 2012, Chemical reviews.

[922] Cheetham,et al. Open-Framework Inorganic Materials. , 1999, Angewandte Chemie.

[923] C. Lamberti,et al. Heterogeneity of Framework Ti(IV) in Ti-Silicalite as Revealed by the Adsorption of NH3. Combined Calorimetric and Spectroscopic Study † , 1999 .

[924] Ulrich Müller,et al. Industrial applications of metal-organic frameworks. , 2009, Chemical Society reviews.

[925] K. Lillerud,et al. Characterization of a New Porous Pt-Containing Metal-Organic Framework Containing Potentially Catalytically Active Sites: Local Electronic Structure at the Metal Centers , 2007 .

[926] K. Lillerud,et al. Functionalization of UiO-66 Metal−Organic Framework and Highly Cross-Linked Polystyrene with Cr(CO)3: In Situ Formation, Stability, and Photoreactivity , 2010 .

[927] C. Lamberti,et al. Alumina-supported copper chloride: 4. Effect of exposure to O2 and HCl , 2000 .

[928] S. Heald. EXAFS at grazing incidence: Data collection and analysis , 1992 .

[929] R. Bell,et al. Determination of the structure of distorted TiO6 units in the titanosilicate ETS-10 by a combination of X-ray absorption spectroscopy and computer modeling , 1996 .

[930] F. d’Acapito,et al. Description of a flexible cell for in situ X-ray and far-IR characterization of the surface of powdered materials , 2003 .

[931] E. Stern. Musings about the development of XAFS. , 2001, Journal of synchrotron radiation.

[932] C. Lamberti,et al. XRD, XAS, and IR Characterization of Copper-Exchanged Y Zeolite , 2000 .

[933] Claude R. Henry,et al. Surface studies of supported model catalysts , 1998 .

[934] Boping Liu,et al. Spectroscopic and structural characterization of Cr(II)/SiO2 active site precursors in model Phillips polymerization catalysts , 2012 .

[935] H. Maeda,et al. The state of excessively lon-exchanged copper in mordenite: formation of tetragonal hydroxy-bridged copper ion , 1992 .

[936] James E. Penner-Hahn,et al. Characterization of “spectroscopically quiet” metals in biology , 2005 .

[937] Chen,et al. Experimental confirmation of the X-ray magnetic circular dichroism sum rules for iron and cobalt. , 1995, Physical review letters.

[938] C. Lamberti,et al. Evolution of Extraframework Iron Species in Fe Silicalite: 2. Effect of Steaming , 2002 .

[939] C. Catlow,et al. Quantum Chemical Study of the Mechanism of Partial Oxidation Reactivity in Titanosilicate Catalysts: Active Site Formation, Oxygen Transfer, and Catalyst Deactivation , 1999 .

[940] V. Krishnan,et al. Structural studies on ruthenium(II) complexes used in interphase catalysis for the hydrogenation of ketones , 2007 .

[941] A. Delabie,et al. Identification of Cu(II) coordination structures in Cu-ZSM-5, based on a DFT/ab initio assignment of the EPR spectra , 2003 .

[942] P. Sadler,et al. Resonant X-ray emission spectroscopy reveals d-d ligand-field states involved in the self-assembly of a square-planar platinum complex. , 2012, Physical chemistry chemical physics : PCCP.

[943] D. Siddons,et al. Hard real-time quick EXAFS data acquisition with all open source software on a commodity personal computer , 2007 .

[944] P. Gütlich,et al. Thermal- and light-induced spin crossover in novel 2D Fe(II) metalorganic frameworks {Fe(4-PhPy)(2)[M(II)(CN)(x)](y)}.sH(2)O: spectroscopic, structural, and magnetic studies. , 2009, Inorganic chemistry.

[945] K. Asakura,et al. X-ray magnetic circular dichroism at rare-earth L23 absorption edges in various compounds and alloys , 2006 .

[946] S. Kaskel,et al. Improved synthesis, thermal stability and catalytic properties of the metal-organic framework compound Cu3(BTC)2 , 2004 .

[947] Bartolomeo Civalleri,et al. CRYSTAL: a computational tool for the ab initio study of the electronic properties of crystals , 2005 .

[948] T. Fujikawa. Theory of Deep Core Excitation EELS , 1991 .

[949] J. V. van Bokhoven,et al. Catalysis by metal-organic frameworks: fundamentals and opportunities. , 2011, Physical chemistry chemical physics : PCCP.

[950] F. d’Acapito,et al. A new procedure for the quantitative analysis of extended x-ray absorption fine structure data in total reflection geometry. , 2008, The Review of scientific instruments.

[951] K. Lillerud,et al. Liquid hydrogen in protonic chabazite. , 2005, Journal of the American Chemical Society.

[952] H. Si,et al. Location of Si vacancies and [Ti(OSi)4] and [Ti(OSi)3OH] sites in the MFI framework: a large cluster and full ab initio study. , 2011, The journal of physical chemistry. A.

[953] M. Bauer,et al. Adsorption of oxygen on copper in Cu/HZSM5 zeolites. , 2010, Physical chemistry chemical physics : PCCP.

[954] G. Kramer,et al. Reactivity Theory of Zeolitic Broensted Acidic Sites , 1995 .

[955] R. Nuzzo,et al. Core Shell Inversion during Nucleation and Growth of Bimetallic Pt/Ru Nanoparticles , 1998 .

[956] A. Beale,et al. New Insights into the Active Surface Species of Silver Alumina Catalysts in the Selective Catalytic Reduction of NO , 2011 .

[957] L. G. Parratt. Surface Studies of Solids by Total Reflection of X-Rays , 1954 .

[958] P. Soukiassian,et al. Structure of Prototypical Semiconductor Surfaces and Interfaces Investigated by Photoemission Extended X-Ray Absorption Fine Structure (PEXAFS) , 1998 .

[959] C. Catlow,et al. On the structure and coordination of the oxygen-donating species in Ti↑MCM-41/TBHP oxidation catalysts: a density functional theory and EXAFS study , 2002 .

[960] H. Petersen. Zur Theorie der Röntgenabsorption molekularer Gase. III , 1936 .

[961] W. Hölderich,et al. Vapour-phase beckmann rearrangement using B-MFI zeolites , 1996 .

[962] A. Frenkel,et al. Evolution of the structure and chemical state of Pd nanoparticles during the in situ catalytic reduction of NO with H2. , 2011, Journal of the American Chemical Society.

[963] W. Delgass,et al. Evidence of defect-promoted reactivity for epoxidation of propylene in titanosilicate (TS-1) catalysts: a DFT study. , 2004, Journal of the American Chemical Society.

[964] J. Niemantsverdriet,et al. In situ, Cr K-edge XAS study on the Phillips catalyst: activation and ethylene polymerization , 2005 .

[965] W. O'grady,et al. 'ATOMIC' X-RAY ABSORPTION FINE STRUCTURE : A NEW TOOL FOR EXAMINING ELECTRONIC AND IONIC POLARIZATION EFFECTS , 1999 .

[966] V. Sobolev,et al. Ferrisilicate analogs of ZSM-5 zeolite as catalysts for one- step oxidation of benzene to phenol , 1993 .

[967] R. G. Tailleur,et al. Cu/P(4-PVP) stereochemistry in tetralin liquid-phase oxidation I. Effect of the CuCl2/P(4-PVP) on selectivity , 2007 .

[968] Michael O'Keeffe,et al. Secondary building units, nets and bonding in the chemistry of metal-organic frameworks. , 2009, Chemical Society reviews.

[969] A. Frenkel,et al. Structure, chemical composition, and reactivity correlations during the in situ oxidation of 2-propanol. , 2011, Journal of the American Chemical Society.

[970] Naoki Toshima,et al. Bimetallic nanoparticles—novel materials for chemical and physical applications , 1998 .

[971] Zhigang Xie,et al. Porous phosphorescent coordination polymers for oxygen sensing. , 2010, Journal of the American Chemical Society.

[972] S. Strauss,et al. [Cu(CO)(n)()](+) Complex Ions in the Solid State (n = 1, 2, 3). , 1996, Inorganic chemistry.

[973] C. Lamberti,et al. A calorimetric, IR, XANES and EXAFS study of the adsorption of NH3 on Ti-silicalite as a function of the sample pre-treatment , 1999 .

[974] Olivier Mathon,et al. Invited article: the fast readout low noise camera as a versatile x-ray detector for time resolved dispersive extended x-ray absorption fine structure and diffraction studies of dynamic problems in materials science, chemistry, and catalysis. , 2007, The Review of scientific instruments.

[975] Pengyan Wu,et al. Homochiral metal-organic frameworks for heterogeneous asymmetric catalysis. , 2010, Journal of the American Chemical Society.

[976] J. Grunwaldt,et al. Oxidic or metallic palladium: which is the active phase in pd-catalyzed aerobic alcohol oxidation? , 2006, The journal of physical chemistry. B.

[977] R. Millini,et al. Ti coordination in titanium silicalite-1. , 2006, Journal of the American Chemical Society.

[978] Russell G. Tonkyn,et al. Excellent activity and selectivity of Cu-SSZ-13 in the selective catalytic reduction of NOx with NH3 , 2010 .

[979] D. Murzin,et al. The influence of acidity of carbon nanofibre-supported palladium catalysts in the hydrogenolysis of hydroxymatairesinol , 2007 .

[980] S. Conradson,et al. A four‐point crystal bender for dispersive X‐ray absorption spectroscopy , 1993 .

[981] M. Di Michiel,et al. Observing oxygen storage and release at work during cycling redox conditions: synergies between noble metal and oxide promoter. , 2012, Angewandte Chemie.

[982] Raul F. Lobo,et al. The ammonia selective catalytic reduction activity of copper-exchanged small-pore zeolites , 2011 .

[983] B. Weckhuysen,et al. An operando optical fiber UV–vis spectroscopic study of the catalytic decomposition of NO and N2O over Cu-ZSM-5 , 2003 .

[984] E. A. Lewis,et al. Embedded cluster Δ-XANES modeling of adsorption processes on Pt , 2009 .

[985] Raul F. Lobo,et al. Zeolite and molecular sieve synthesis , 1992 .

[986] A. V. D. Eerden,et al. Apparatus for in situ x-ray absorption fine structure studies on catalytic systems in the energy range 1000 eV , 2000 .

[987] C. Prestipino,et al. EXAFS and XANES investigation of the ETS-10 microporous titanosilicate. , 2005, The journal of physical chemistry. B.

[988] Helmut Bertagnolli,et al. X‐Ray Absorption Spectroscopy of Amorphous Solids, Liquids, and Catalytic and Biochemical Systems—Capabilities and Limitations , 1994 .

[989] Y. Souma,et al. A new type of support 'bipyridine containing aromatic polyamide' to CuCl2 for synthesis of dimethyl carbonate (DMC) by oxidative carbonylation of methanol , 2000 .

[990] J. Long,et al. Matrix isolation chemistry in a porous metal-organic framework: photochemical substitutions of N2 and H2 in Zn4O[(eta6-1,4-benzenedicarboxylate)Cr(CO)3]3. , 2008, Journal of the American Chemical Society.

[991] D. Ramaker,et al. XAFS spectroscopy in catalysis research: AXAFS and shape resonances. , 1999, Journal of synchrotron radiation.

[992] Anna Bergamaschi,et al. Five-element Johann-type x-ray emission spectrometer with a single-photon-counting pixel detector. , 2011, The Review of scientific instruments.

[993] G. Ghiotti,et al. Cr2+ ions grafted to silica and silicalite surfaces: FTIR characterization and ethylene polymerization activity , 1994 .

[994] W. M. Meier,et al. Structure of synthetic zeolite ZSM-5 , 1978, Nature.

[995] Teppei Yamada,et al. Protection and deprotection approach for the introduction of functional groups into metal-organic frameworks. , 2009, Journal of the American Chemical Society.

[996] S. Kitagawa,et al. Selective sorption of oxygen and nitric oxide by an electron-donating flexible porous coordination polymer , 2010, Nature Chemistry.

[997] Uwe Bergmann,et al. High resolution 1s core hole X-ray spectroscopy in 3d transition metal complexes—electronic and structural information , 2005 .

[998] Rob Ameloot,et al. An amino-modified Zr-terephthalate metal-organic framework as an acid-base catalyst for cross-aldol condensation. , 2011, Chemical communications.

[999] D. Nachtigallová,et al. Coordination of Cu+ and Cu2+ ions in ZSM-5 in the vicinity of two framework Al atoms , 2001 .

[1000] T. Akita,et al. Propane reacts with O2 and H2 on gold supported TS-1 to form oxygenates with high selectivity. , 2008, Chemical communications.

[1001] D. Koningsberger,et al. Reactivity of binuclear Fe complexes in over-exchanged Fe/ZSM5, studied by in situ XAFS spectroscopy 2. Selective catalytic reduction of NO with isobutane , 2003 .

[1002] W. Xu,et al. Time Resolved IR and X-Ray Simultaneous Spectroscopy: New Opportunities for the Analysis of Fast Chemical-Physical Phenomena in Materials Science , 2009 .

[1003] R. Socha,et al. Selective catalytic reduction of NO by ethanol: Speciation of iron and "structure-properties" relationship in FeSiBEA zeolite , 2009 .

[1004] A. Corma,et al. INTERACTION OF TI-ZEOLITES WITH WATER. A PERIODIC AB INITIO STUDY , 1999 .

[1005] M. Clerici. Oxidation of saturated hydrocarbons with hydrogen peroxide, catalysed by titanium silicalite , 1991 .

[1006] W. Haag,et al. Catalytic conversion of propane to aromatics: Effects of adding Ga and/or Pt to HZSM-5 , 1994 .

[1007] J. Grunwaldt,et al. Structural changes of noble metal catalysts during ignition and extinction of the partial oxidation of methane studied by advanced QEXAFS techniques. , 2009, Physical chemistry chemical physics : PCCP.

[1008] D. Ramaker,et al. Three-site model for hydrogen adsorption on supported platinum particles: influence of support ionicity and particle size on the hydrogen coverage. , 2005, Journal of the American Chemical Society.

[1009] K. Hadjiivanov,et al. FTIR Study of Low-Temperature CO Adsorption on Cu-ZSM-5: Evidence of the Formation of Cu2+(CO)2 Species , 2000 .

[1010] G. Bellussi,et al. Titanium-Silicalite: a Novel Derivative in the Pentasil Family , 1986 .

[1011] Filipponi,et al. X-ray-absorption spectroscopy and n-body distribution functions in condensed matter. II. Data analysis and applications. , 1995, Physical review. B, Condensed matter.

[1012] K. Lillerud,et al. Conversion of methanol to hydrocarbons: how zeolite cavity and pore size controls product selectivity. , 2012, Angewandte Chemie.

[1013] A. Frenkel. Solving the structure of nanoparticles by multiple-scattering EXAFS analysis. , 1999, Journal of synchrotron radiation.

[1014] A. Piazzalunga,et al. Collective magnetic excitations in the spin ladder Sr14Cu24O41 measured using high-resolution resonant inelastic x-ray scattering. , 2009, Physical review letters.

[1015] Ettore Fois,et al. Competition between Water and Hydrogen Peroxide at Ti Center in Titanium Zeolites. An ab Initio Study , 2004 .

[1016] M. Lyubovsky,et al. SYNTHESIS AND CHARACTERIZATION OF VANADIUM-SUBSTITUTED MESOPOROUS MOLECULAR SIEVES , 1999 .

[1017] M. Balasubramanian,et al. When is a nanoparticle a cluster? An operando EXAFS study of amine borane dehydrocoupling by Rh(4-6) clusters. , 2007, Journal of the American Chemical Society.

[1018] P. Glatzel,et al. Resonant X-ray spectroscopy to study K absorption pre-edges in 3d transition metal compounds , 2009 .

[1019] G. Pirngruber. The surface chemistry of N2O decomposition on iron containing zeolites (I) , 2003 .

[1020] Z. Liu,et al. X-ray absorption spectroscopy of Ti-containing molecular sieves ETS-10, aluminum-free Ti-β, and TS-1 , 1995 .

[1021] Dorina F. Sava,et al. Trapping guests within a nanoporous metal-organic framework through pressure-induced amorphization. , 2011, Journal of the American Chemical Society.

[1022] M. Siegbahn. LVIII. Precision-measurements in the X-ray spectra , 1919 .

[1023] M. Tromp,et al. Interaction of small gas phase molecules with alumina supported rhodium nanoparticles: an in situ spectroscopic study , 2008 .

[1024] K. Hodgson,et al. Multiple-Edge XAS Studies of Synthetic Iron-Copper Bridged Molecular Assemblies Relevant to Cytochrome c Oxidase. Structure Determination Using Multiple-Scattering Analysis with Statistical Evaluation of Errors. , 1996, Inorganic chemistry.

[1025] J. Sauer,et al. Coordination, Structure, and Vibrational Spectra of Titanium in Silicates and Zeolites in Comparison with Related Molecules. An ab Initio Study , 1996 .

[1026] D. Olson,et al. Commensurate adsorption of hydrocarbons and alcohols in microporous metal organic frameworks. , 2012, Chemical reviews.

[1027] C. Lamberti,et al. IR spectroscopy of adsorbed NO as a useful tool for the characterisation of low concentrated Fe-silicalite catalysts , 2002 .

[1028] D. Lützenkirchen-Hecht,et al. Recent advances and new applications of time-resolved x-ray absorption spectroscopy , 2005 .

[1029] F. Lytle,et al. Extended x‐ray absorption fine structure (EXAFS) of dispersed metal catalysts , 1979 .

[1030] C. Lamberti,et al. Time-resolved in situ studies of oxygen intercalation into SrCoO2.5, performed by neutron diffraction and X-ray absorption spectroscopy. , 2006, Journal of the American Chemical Society.

[1031] V. Romannikov,et al. Oxidation of benzene to phenol by nitrous oxide over Fe-ZSM-5 zeolites , 1992 .

[1032] J. Bokhoven,et al. Al K-edge near-edge X-ray absorption fine structure (NEXAFS) study on the coordination structure of aluminum in minerals and Y zeolites , 1999 .

[1033] R. Nuzzo,et al. Structural characterization of bimetallic nanomaterials with overlapping x-ray absorption edges , 2009 .

[1034] C. Lamberti,et al. Cu+(H2) and Na+(H2) adducts in exchanged ZSM-5 zeolites. , 2004, Chemical communications.

[1035] Takashi Yamamoto. Assignment of pre‐edge peaks in K‐edge x‐ray absorption spectra of 3d transition metal compounds: electric dipole or quadrupole? , 2008 .

[1036] S. Hong,et al. Influence of framework silicon to aluminium ratio on aluminium coordination and distribution in zeolite Beta investigated by 27Al MAS and 27Al MQ MAS NMR , 2004 .

[1037] K. Lillerud,et al. H2 storage in isostructural UiO-67 and UiO-66 MOFs. , 2012, Physical chemistry chemical physics : PCCP.

[1038] P. Agrawal,et al. Gallosilicate molecular sieves: the role of framework and nonframework gallium on catalytic cracking activity , 1987 .

[1039] C. Meneghini,et al. ESTRA-FitEXA: A software package for EXAFS data analysis , 2012 .

[1040] S. Qiu,et al. Molecular engineering for synthesizing novel structures of metal–organic frameworks with multifunctional properties , 2009 .

[1041] B. Weckhuysen,et al. Pore curvature and support composition effects on the electronic properties of supported Pt catalysts: An infrared spectroscopy study with CO as probe molecule , 2008 .

[1042] M. Kumar,et al. Selective reduction of NO with Fe-ZSM-5 catalysts of low Fe content: I. Relations between active site structure and catalytic performance , 2005 .

[1043] T. Tatsumi,et al. Unique trans-Selectivity of Ti-MWW in Epoxidation of cis/trans-Alkenes with Hydrogen Peroxide , 2002 .

[1044] A. Beale,et al. Spatiotemporal Multitechnique Imaging of a Catalytic Solid in Action: Phase Variation and Volatilization During Molybdenum Oxide Reduction , 2009 .

[1045] P. Smirniotis,et al. N2O decomposition over iron-containing zeolites prepared by different methods: a comparison of the reaction mechanism , 2004 .

[1046] Kenji Sumida,et al. Hydrogen storage properties and neutron scattering studies of Mg2(dobdc)--a metal-organic framework with open Mg2+ adsorption sites. , 2011, Chemical communications.

[1047] Qing Min Wang,et al. Metallo-organic molecular sieve for gas separation and purification , 2002 .

[1048] R. Nuzzo,et al. Unusual non-bulk properties in nanoscale materials: thermal metal-metal bond contraction of gamma-alumina-supported Pt catalysts. , 2006, Journal of the American Chemical Society.

[1049] C. Lamberti,et al. The structure of the peroxo species in the TS-1 catalyst as investigated by resonant Raman spectroscopy. , 2002, Angewandte Chemie.

[1050] C. Lamberti,et al. Effect of Interaction with H2O and NH3 on the Vibrational, Electronic, and Energetic Peculiarities of Ti(IV) Centers TS-1 Catalysts: A Spectroscopic and Computational Study , 2002 .

[1051] M. Rosseinsky,et al. Framework functionalisation triggers metal complex binding. , 2008, Chemical communications.

[1052] C. Lamberti,et al. XAFS Study of Ti-Silicalite - Structure of Framework Ti(IV) in the Presence and Absence of Reactive Molecules (H2O, NH3) and Comparison with Ultraviolet-Visible and Ir Results , 1994 .

[1053] B. Weckhuysen,et al. Promotion effects in the oxidation of CO over zeolite-supported Pt nanoparticles. , 2005, The journal of physical chemistry. B.

[1054] C. Lamberti,et al. Functionalization of zeolitic cavities: grafting NH2 groups in framework T sites of B-SSZ-13--a way to obtain basic solids catalysts? , 2007, Journal of the American Chemical Society.

[1055] Simon J. L. Billinge,et al. PDFgetX2: a GUI-driven program to obtain the pair distribution function from X-ray powder diffraction data , 2004 .

[1056] J. Hormes,et al. The influence of coordination geometry and valency on the K-edge absorption near edge spectra of selected chromium compounds , 2004 .

[1057] K. Lillerud,et al. Design, synthesis and characterization of a Pt-Gd metal-organic framework containing potentially catalytically active sites. , 2008, Dalton transactions.

[1058] A. Corma,et al. Engineering metal organic frameworks for heterogeneous catalysis. , 2010, Chemical reviews.

[1059] C. Lamberti,et al. Characterization of isolated Ag cations in homoionic Ag-Y zeolites: A combined anomalous XRPD and EXAFS study , 2003 .

[1060] J. Bünzli,et al. Lanthanide-containing molecular and supramolecular polymetallic functional assemblies. , 2002, Chemical reviews.

[1061] J. Rehr,et al. TI K-EDGE XANES STUDIES OF TI COORDINATION AND DISORDER IN OXIDE COMPOUNDS: COMPARISON BETWEEN THEORY AND EXPERIMENT , 1997 .

[1062] Carlo Lamberti,et al. The inconsistency in adsorption properties and powder XRD data of MOF-5 is rationalized by framework interpenetration and the presence of organic and inorganic species in the nanocavities. , 2007, Journal of the American Chemical Society.

[1063] Cheng Wang,et al. Rational synthesis of noncentrosymmetric metal-organic frameworks for second-order nonlinear optics. , 2012, Chemical reviews.

[1064] H. García,et al. Metal Organic Frameworks as Solid Acid Catalysts for Acetalization of Aldehydes with Methanol , 2010 .

[1065] C. Lamberti,et al. Vibrational structure of titanium silicate catalysts. A spectroscopic and theoretical study. , 2001, Journal of the American Chemical Society.

[1066] W. Sachtler,et al. Effect of Ga/Proton Balance in Ga/HZSM-5 Catalysts on C3 Conversion to Aromatics , 1994 .

[1067] M. Eddaoudi,et al. Rod packings and metal-organic frameworks constructed from rod-shaped secondary building units. , 2005, Journal of the American Chemical Society.

[1068] P. Luches,et al. O K-edge x-ray absorption study of ultrathin NiO epilayers deposited in situ on Ag(001) , 2004 .

[1069] Can Li,et al. UV Raman spectroscopic studies on active sites and synthesis mechanisms of transition metal-containing microporous and mesoporous materials. , 2010, Accounts of chemical research.

[1070] Simon J. L. Billinge,et al. PDFFIT, a program for full profile structural refinement of the atomic pair distribution function , 1999 .

[1071] A. Rosenzweig. The metal centres of particulate methane mono-oxygenase. , 2008, Biochemical Society transactions.

[1072] U. Mueller,et al. Metal–organic frameworks—prospective industrial applications , 2006 .

[1073] T. Ressler,et al. In Situ X-ray Absorption Spectroscopy Studies on Chemical Oscillations in the CO/O2 System on Supported Pd Catalysts , 1997 .

[1074] B. Weckhuysen,et al. Bis(μ-oxo)dicopper in Cu-ZSM-5 and Its Role in the Decomposition of NO: A Combined in Situ XAFS, UV−Vis−Near-IR, and Kinetic Study , 2003 .

[1075] B. Gates,et al. A flow-through x-ray absorption spectroscopy cell for characterization of powder catalysts in the working state , 2001 .

[1076] W. O'grady,et al. Determination of O and OH adsorption sites and coverage in situ on Pt electrodes from Pt L(2,3) X-ray absorption spectroscopy. , 2005, The journal of physical chemistry. B.

[1077] K. Burgess,et al. Metal-catalyzed epoxidations of alkenes with hydrogen peroxide. , 2003, Chemical reviews.

[1078] H. Gies,et al. Alkene epoxidation with mesoporous materials assembled from TS-1 seeds - Is there a hierarchical pore system? , 2010 .

[1079] C. Lamberti,et al. CO Adsorption on CPO-27-Ni Coordination Polymer: Spectroscopic Features and Interaction Energy , 2009 .

[1080] John J. Rehr,et al. Sensitivity of Pt x-ray absorption near edge structure to the morphology of small Pt clusters , 2002 .

[1081] D. Lützenkirchen-Hecht,et al. Advancing Time-resolved Methods in Monitoring and Characterization of Catalysts , 2009 .

[1082] G. Palmisano,et al. Cubic octanuclear Ni(II) clusters in highly porous polypyrazolyl-based materials. , 2010, Journal of the American Chemical Society.

[1083] W. O'grady,et al. SYSTEMATIC CHEMICAL EFFECTS OBSERVED IN ATOMIC X-RAY ABSORPTION FINE STRUCTURE , 1997 .

[1084] A. Yaresko,et al. Electronic structure of mixed-valence semiconductors in the LSDA + U approximation. I. Sm monochalcogenides , 2002 .

[1085] D. Koningsberger,et al. An in situ cell for transmission EXAFS measurements on catalytic samples , 1989 .

[1086] F. Quignard,et al. Catalytic Cleavage of the C-H and C-C Bonds of Alkanes by Surface Organometallic Chemistry: An EXAFS and IR Characterization of a Zr-H Catalyst , 1996, Science.

[1087] Avelino Corma,et al. Inorganic Solid Acids and Their Use in Acid-Catalyzed Hydrocarbon Reactions , 1995 .

[1088] J. Pendry,et al. Atomic origin of structure in EXAFS experiments , 1978 .

[1089] Liu,et al. UV Resonance Raman Spectroscopic Identification of Titanium Atoms in the Framework of TS-1 Zeolite. , 1999, Angewandte Chemie.

[1090] Kimoon Kim,et al. A homochiral metal-organic material with permanent porosity, enantioselective sorption properties, and catalytic activity. , 2006, Angewandte Chemie.

[1091] Grant Bunker,et al. Application of the ratio method of EXAFS analysis to disordered systems , 1983 .

[1092] B. Sels,et al. Oxygen precursor to the reactive intermediate in methanol synthesis by Cu-ZSM-5. , 2010, Journal of the American Chemical Society.

[1093] Gloria Berlier,et al. Interaction of N2, CO and NO with Cu-exchanged ETS-10: a compared FTIR study with other Cu-zeolites and with dispersed Cu2O , 2001 .

[1094] B. Gates,et al. Structure and Nature of the Metal-Support Interface: Characterization of Iridium Clusters on Magnesium Oxide by Extended X-Ray Absorption Fine Structure Spectroscopy. , 1993 .

[1095] Wenbin Lin,et al. Enantioselective catalysis with homochiral metal-organic frameworks. , 2009, Chemical Society reviews.

[1096] B. Weckhuysen,et al. An integrated AFM-Raman instrument for studying heterogeneous catalytic systems: a first showcase. , 2012, Chemical communications.

[1097] D. E. Keller,et al. Application of AXAFS spectroscopy to transition-metal oxides: influence of the nearest and next nearest neighbour shells in vanadium oxides. , 2007, Chemistry.

[1098] C. Lamberti,et al. Evolution of Extraframework Iron Species in Fe Silicalite: 1. Effect of Fe Content, Activation Temperature, and Interaction with Redox Agents , 2002 .

[1099] Fabrizio Cavani,et al. Sustainable Industrial Chemistry , 2009 .

[1100] L. Kiwi-Minsker,et al. Benzene hydroxylation over FeZSM-5 catalysts: which Fe sites are active? , 2004 .

[1101] J. Hanson,et al. Solving the structure of reaction intermediates by time-resolved synchrotron x-ray absorption spectroscopy. , 2008, The Journal of chemical physics.

[1102] C. Lamberti,et al. XANES study of Ti and Fe substituted silicalites in presence and in absence of NH3 and comparison with UV-vis, IR and Raman spectra , 1995 .

[1103] V. A. Safonov,et al. Valence-to-core X-ray emission spectroscopy identification of carbide compounds in nanocrystalline Cr coatings deposited from Cr(III) electrolytes containing organic substances. , 2006, The journal of physical chemistry. B.

[1104] R. Prins,et al. Different methods for preparation of Fe-ZSM5 as catalyst for the selective catalytic reduction of nitrogen oxides , 1999 .

[1105] Eric L. Shirley,et al. AB INITIO INCLUSION OF ELECTRON-HOLE ATTRACTION : APPLICATION TO X-RAY ABSORPTION AND RESONANT INELASTIC X-RAY SCATTERING , 1998 .

[1106] Julian D. Gale,et al. GULP: A computer program for the symmetry-adapted simulation of solids , 1997 .

[1107] Y. Hu,et al. Hydrogen Storage in Metal–Organic Frameworks , 2010, Advanced materials.

[1108] C. Lamberti,et al. Single site catalyst for partial oxidation reaction: Ts-1 case study , 2005 .

[1109] Seth M. Cohen,et al. Postsynthetic modification of metal-organic frameworks. , 2009, Chemical Society reviews.

[1110] Edward A. Stern,et al. New Technique for Investigating Noncrystalline Structures: Fourier Analysis of the Extended X-Ray—Absorption Fine Structure , 1971 .

[1111] K. Lillerud,et al. Effect of boron substitution in chabazite framework : IR studies on the acidity properties and reactivity towards methanol , 2007 .

[1112] C. Lamberti,et al. Thermal Reduction of Cu2+−Mordenite and Re-oxidation upon Interaction with H2O, O2, and NO , 2003 .

[1113] G. Wilke. Fifty years of Ziegler catalysts: consequences and development of an invention. , 2003, Angewandte Chemie.

[1114] Javier Pérez-Ramírez,et al. Importance of the lifetime of oxygen species generated by N2O decomposition for hydrocarbon activation over Fe-silicalite , 2006 .

[1115] Héaector D. Abruña. Probing Electrochemical Interfaces with X‐Rays , 2007 .

[1116] K. Lillerud,et al. Synthesis of Titanium Chabazite: A New Shape Selective Oxidation Catalyst with Small Pore Openings and Application in the Production of Methyl Formate from Methanol , 2011 .

[1117] E. D. Crozier,et al. Angular scanning stage for glancing‐incidence surface EXAFS , 1988 .

[1118] A. Frenkel,et al. Time Resolved in Situ XAFS Study of the Electrochemical Oxygen Intercalation in SrFeO2.5 Brownmillerite Structure: Comparison with the Homologous SrCoO2.5 System† , 2011 .

[1119] T. Uruga,et al. Energy-Dispersive XAFS Studies on the Spontaneous Dispersion of PdO and the Formation of Stable Pd Clusters in Zeolites. , 2004, The journal of physical chemistry. B.

[1120] M. O'Keeffe. Design of MOFs and intellectual content in reticular chemistry: a personal view. , 2009, Chemical Society reviews.

[1121] D. Trimm,et al. Kinetic study of steam reforming of methanol over copper-based catalysts , 1993 .

[1122] Peng Wu,et al. Synthesis, crystallization mechanism, and catalytic properties of titanium-rich TS-1 free of extraframework titanium species. , 2008, Journal of the American Chemical Society.

[1123] R. W. Joyner,et al. Structure, Chemistry, and Activity of Cu-ZSM-5 Catalysts for the Selective Reduction of NOx in the Presence of Oxygen , 1994 .

[1124] Lynn F. Gladden,et al. Recent Advances in MRI Studies of Chemical Reactors: Ultrafast Imaging of Multiphase Flows , 2003 .

[1125] G. Koten,et al. Atomic XAFS as a probe of electron transfer within organometallic complexes: Data analysis and theoretical calculations , 2004 .

[1126] N. Binsted,et al. A rapid, exact, curved-wave theory for EXAFS calculations. II. The multiple-scattering contributions , 1986 .

[1127] S. Shinkai,et al. "Clickable" metal-organic framework. , 2008, Journal of the American Chemical Society.

[1128] C. Louis,et al. Nucleation and Particle Growth Processes Involved in the Preparation of Silica-Supported Nickel Materials by a Two-Step Procedure , 1995 .

[1129] A. Dent,et al. Combined energy dispersive EXAFS and x‐ray diffraction , 1992 .

[1130] B. Rieger,et al. Reaction kinetics of oxychlorination of carbon monoxide to phosgene based on copper(II) chloride , 2009 .

[1131] H. Ebert,et al. Calculation of X-ray absorption spectra using the full potential spin-polarized relativistic multiple scattering formalism , 1999 .

[1132] Lin X. Chen,et al. Probing transient molecular structures in photochemical processes using laser-initiated time-resolved X-ray absorption spectroscopy. , 2005, Annual review of physical chemistry.

[1133] A. Frenkel,et al. Structural and Architectural Evaluation of Bimetallic Nanoparticles: a Case Study of Pt؊ru Core؊shell and Alloy Nanoparticles Abstract a Comprehensive Structural/architectural Evaluation of the Ptru (1:1) Alloy and Ru@pt Core؊shell Nanoparticles (nps) Provides Spatially Resolved Structural Informati , 2009 .

[1134] A. Paulikas,et al. Improved ab initio calculations of amplitude and phase functions for extended x-ray absorption fine structure spectroscopy , 1988 .

[1135] A. Uriarte,et al. Oxidation of benzene to phenol by nitrous oxide: Activity of iron in zeolite matrices of various composition , 2002 .

[1136] A. Munkholm,et al. Capturing a Photoexcited Molecular Structure Through Time-Domain X-ray Absorption Fine Structure , 2001, Science.

[1137] M. Kantcheva,et al. Study of the NO2-NH3 Interaction on a Titania (ANATASE) Supported Vanadia Catalyst , 1994 .

[1138] M. Drakopoulos,et al. Determining the aluminium occupancy on the active T-sites in zeolites using X-ray standing waves. , 2008, Nature materials.

[1139] B. Weckhuysen,et al. In-situ scanning transmission X-ray microscopy of catalytic solids and related nanomaterials. , 2010, Chemphyschem : a European journal of chemical physics and physical chemistry.

[1140] Omar K Farha,et al. Supercritical processing as a route to high internal surface areas and permanent microporosity in metal-organic framework materials. , 2009, Journal of the American Chemical Society.

[1141] R. Nuzzo,et al. Carbon Support Effects on Bimetallic Pt−Ru Nanoparticles Formed from Molecular Precursors , 1999 .

[1142] A. P. Sorini,et al. Ab initio theory and calculations of X-ray spectra , 2009 .

[1143] C. Lamberti,et al. Study of epitaxial selective area growth In1−xGaxAs films by synchrotron μ-XRF mapping , 2010 .

[1144] B. Smit,et al. Carbon dioxide capture: prospects for new materials. , 2010, Angewandte Chemie.

[1145] K. Lillerud,et al. X-ray absorption spectroscopies: useful tools to understand metallorganic frameworks structure and reactivity. , 2010, Chemical Society reviews.

[1146] K. Lillerud,et al. A thermally stable Pt/Y-based metal-organic framework: Exploring the accessibility of the metal centers with spectroscopic methods using H2O, CH3OH, and CH3CN as probes. , 2006, The journal of physical chemistry. B.

[1147] Chan,et al. Practical method for full curved-wave theory analysis of experimental extended x-ray-absorption fine structure. , 1986, Physical review. B, Condensed matter.

[1148] C. Lamberti,et al. Oxidation States of Copper Ions in ZSM-5 Zeolites. A Multitechnique Investigation. , 2000, The journal of physical chemistry. B.

[1149] R. T. Yang,et al. Low-temperature selective catalytic reduction of NOx with NH3 over metal oxide and zeolite catalysts—A review , 2011 .

[1150] A. Beale,et al. Implementation of a combined SAXS/WAXS/QEXAFS set-up for time-resolved in situexperiments. , 2008, Journal of synchrotron radiation.

[1151] C. Louis,et al. The effect of gold particle size on AuAu bond length and reactivity toward oxygen in supported catalysts , 2006 .

[1152] P. Luches,et al. X-ray absorption study at the Mg and O K edges of ultrathin MgO epilayers on Ag(001) , 2004 .

[1153] C. Mirodatos,et al. Applicability and Limits of the Ensemble Model in Catalysis by Metals: The Kinetics of Ethane Hydrogenolysis over Pt/SiO2☆ , 1998 .

[1154] B. Gates,et al. Time-Resolved Structural Characterization of Formation and Break-up of Rhodium Clusters Supported in Highly Dealuminated Y Zeolite , 2008 .

[1155] M. Anpo,et al. In-Situ XAFS, Photoluminescence, and IR Investigations of Copper Ions Included within Various Kinds of Zeolites. Structure of Cu(I) Ions and Their Interaction with CO Molecules , 1996 .

[1156] Seth M Cohen,et al. Postsynthetic modification of metal-organic frameworks--a progress report. , 2011, Chemical Society reviews.

[1157] A. Beale,et al. Chemical probing within catalyst bodies by diagonal offset Raman spectroscopy. , 2012, Angewandte Chemie.

[1158] Hidenori Yahiro,et al. Cu-ZSM-5 zeolite as highly active catalyst for removal of nitrogen monoxide from emission of diesel engines , 1991 .

[1159] D. Dingwell,et al. X-ray absorption study of Ti-bearing silicate glasses , 1994 .

[1160] G. Pirngruber,et al. A look into the surface chemistry of N2O decomposition on iron zeolites by transient response experiments , 2005 .

[1161] A. Polian,et al. Dispersive XAS at third-generation sources: strengths and limitations. , 1999, Journal of synchrotron radiation.

[1162] J. A. Ryder,et al. Density functional theory study of benzene oxidation over Fe-ZSM-5 , 2003 .

[1163] Cr Cees Bayense,et al. Aromatization of propane over MFI-gallosilicates , 1991 .

[1164] T. Tatsumi,et al. A Novel Titanosilicate with MWW Structure: II. Catalytic Properties in the Selective Oxidation of Alkenes , 2001 .

[1165] A. Rockett,et al. Origin of bulklike structure and bond length disorder of Pt37 and Pt6Ru31 clusters on carbon: comparison of theory and experiment. , 2006, Journal of the American Chemical Society.

[1166] R. Prins,et al. The mechanism of formation of the Fe species in Fe/ZSM-5 prepared by CVD , 2001 .

[1167] A. Russell,et al. X-ray absorption spectroscopy of low temperature fuel cell catalysts. , 2004, Chemical Reviews.

[1168] Zhong Ren,et al. Time-resolved Macromolecular Crystallography Workshop at BioCARS , 2009 .

[1169] D. Ramaker,et al. Characterization of Ligand Effects on Water Activation in Triarylphosphine-Stabilized Pt Nanoparticle Catalysts by X-ray Absorption Spectroscopy , 2008 .

[1170] F. Manjón,et al. Pressure effects on the structural and electronic properties of ABX4 scintillating crystals , 2008, 0802.0160.

[1171] C. Lamberti,et al. Quantification of copper phases, their reducibility and dispersion in doped-CuCl2/Al2O3 catalysts for ethylene oxychlorination. , 2010, Dalton transactions.

[1172] M. Krisch,et al. Spectral sharpening of the Pt L edges by high-resolution x-ray emission , 2002 .

[1173] El-Mekki El-Malki,et al. Active Sites in Fe/MFI Catalysts for NOx Reduction and Oscillating N2O Decomposition , 2000 .

[1174] D. Resasco,et al. High-temperature oxychlorination catalysts: Role of LaCl3 as an inhibitor of the segregation of active species during heating/cooling cycles , 1990 .

[1175] R. Kumar,et al. Transition metal-silicate analogs of zeolites , 1993 .

[1176] H. Renevier,et al. ELECTRON POPULATION ANALYSIS BY FULL-POTENTIAL X-RAY ABSORPTION SIMULATIONS , 1999 .

[1177] Omar K Farha,et al. Metal-organic framework materials as catalysts. , 2009, Chemical Society reviews.

[1178] C. Lamberti,et al. Structure and nuclearity of active sites in Fe-zeolites: comparison with iron sites in enzymes and homogeneous catalysts. , 2007, Physical chemistry chemical physics : PCCP.

[1179] K. Chamberlain. The Fine Structure of Certain X-Ray Absorption Edges , 1925 .

[1180] Kai Chen,et al. Morphology and microstructure of magnetite and ilmenite inclusions in plagioclase from Adirondack anorthositic gneiss , 2011 .

[1181] Uwe Bergmann,et al. Chemical dependence of interatomic X-ray transition energies and intensities – a study of Mn Kβ″ and Kβ2, 5 spectra , 1999 .

[1182] B. Gates,et al. Structure and reactivity of a mononuclear gold-complex catalyst supported on magnesium oxide. , 2003, Angewandte Chemie.

[1183] Christian J. Doonan,et al. Crystals as molecules: postsynthesis covalent functionalization of zeolitic imidazolate frameworks. , 2008, Journal of the American Chemical Society.

[1184] A. Frenkel,et al. Shape-dependent catalytic properties of Pt nanoparticles. , 2010, Journal of the American Chemical Society.

[1185] D. Ramaker,et al. Separation of Double-Electron and Atomic XAFS contributions in X-ray Absorption Spectra of Pt foil and Na2Pt(OH)6 , 2002 .

[1186] Gang Li,et al. The Direct Synthesis of Hydrogen Peroxide from H2 and O2 over Au/TS-1 and Application in Oxidation of Thiophene in Situ , 2006 .

[1187] A. Cheetham,et al. A quantitative description of the active sites in the dehydrated acid catalyst HSAPO-34 for the conversion of methanol to olefins , 1996 .

[1188] B. Ravel,et al. ATOMS: crystallography for the X-ray absorption spectroscopist. , 2001, Journal of synchrotron radiation.

[1189] Development of XAFS theory. , 2003, Journal of synchrotron radiation.

[1190] Q. Zhu,et al. Extraframework Fe-Al-O species occluded in MFI zeolite as the active species in the oxidation of benzene to phenol with nitrous oxide , 2003 .

[1191] D. King,et al. Sulphur adsorption on Cu{110}: a SEXAFS study , 1991 .

[1192] Guodong Qian,et al. Metal-organic frameworks with functional pores for recognition of small molecules. , 2010, Accounts of chemical research.

[1193] Andreas Heyden,et al. Nitrous oxide decomposition over Fe-ZSM-5 in the presence of nitric oxide: a comprehensive DFT study. , 2006, The journal of physical chemistry. B.

[1194] D. Nachtigallová,et al. Coordination Change of Cu+Sites in ZSM-5 on Excitation in the Triplet State: Understanding of the Photoluminescence Spectra , 2000 .

[1195] G. Ghiotti,et al. The chemistry of silica-supported Cr ions: A characterization of the reduced and oxidized forms of chromia/silica catalyst by calorimetry and ultraviolet-visible spectroscopy , 1980 .

[1196] J. Sinfelt. Catalytic Hydrogenolysis over Supported Metals , 1970 .

[1197] A. Frenkel,et al. Solving the structure of size-selected Pt nanocatalysts synthesized by inverse micelle encapsulation. , 2010, Journal of the American Chemical Society.

[1198] C. Lamberti,et al. Effect of NH3 Adsorption on the Structural and Vibrational Properties of TS-1 , 2002 .

[1199] L. Pellerito,et al. Organotin(IV)n+ complexes formed with biologically active ligands: equilibrium and structural studies, and some biological aspects , 2002 .

[1200] H. Wende,et al. Surface atomic-XAFS for nitrogen atoms on copper , 1997 .

[1201] D. E. Keller,et al. Atomic XAFS as a tool to probe the reactivity of metal oxide catalysts: quantifying metal oxide support effects. , 2007, Journal of the American Chemical Society.

[1202] K. Hodgson,et al. GNXAS, A Multiple-Scattering Approach to EXAFS Analysis: Methodology and Applications to Iron Complexes , 1995 .

[1203] A. Cheetham,et al. Synchrotron X‐ray and Neutron Diffraction Studies in Solid‐State Chemistry , 1992 .

[1204] R. Szostak,et al. Preparation of ferrisilicate ZSM-5 molecular sieves , 1986 .

[1205] D. Huybrechts,et al. Oxyfunctionalization of alkanes with hydrogen peroxide on titanium silicalite , 1990, Nature.

[1206] Reflectivity studies on a synchrotron radiation mirror in the hard X-ray regime , 2001 .

[1207] J. Smith,et al. Crystal Structure of Chabazite, a Molecular Sieve , 1958, Nature.

[1208] M. Newton,et al. Oxidation/reduction kinetics of supported Rh/Rh2O3 nanoparticles in plug flow conditions using dispersive EXAFS. , 2005, Chemical communications.

[1209] E. Fois,et al. Ab Initio Molecular Dynamics Simulation of the Interaction between Water and Ti in Zeolitic Systems , 2004 .

[1210] A. P. Sorini,et al. Evidence for weak electronic correlations in Fe-Pnictides , 2009, 0905.2633.

[1211] M. Piumetti,et al. The control of selectivity in benzene hydroxylation catalyzed by TS-1: The solvent effect and the role of crystallite size , 2010 .

[1212] Axel E. Lundh. Über dieK-Röntgenabsorptionsspektra der Elemente Si, Ti, V, Cr, Mn und Fe , 1925 .

[1213] F. Kapteijn,et al. Utilizing full-exchange capacity of zeolites by alkaline leaching: Preparation of Fe-ZSM5 and application in N2O decomposition , 2006 .

[1214] P. Magusin,et al. N2O Decomposition over Fe/ZSM-5: Effect of High-Temperature Calcination and Steaming , 2002 .

[1215] T. Schmitt,et al. Observation of multiple Zhang-Rice excitations in a correlated solid: Resonant inelastic X-ray scattering study of Li2CuO2 , 2007 .

[1216] A Primer in Synchrotron Radiation: Everything You Wanted to Know about SEX (Synchrotron Emission of X-rays) but Were Afraid to Ask. , 1995, Journal of synchrotron radiation.

[1217] Luc Favre,et al. Magnetic and structural properties of isolated and assembled clusters , 2005 .

[1218] M. Fernández-García. XANES analysis of catalytic systems under reaction conditions , 2002 .

[1219] R. Boča,et al. Spin crossover in iron(II) tris(2-(2-pyridyl)benzimidazole) complex monitored by the variable temperature EXAFS , 2000 .

[1220] M. Bañares. Operando methodology: combination of in situ spectroscopy and simultaneous activity measurements under catalytic reaction conditions , 2005 .

[1221] Q. Shen,et al. Hard x-ray microscopy with Fresnel zone plates reaches 40 nm Rayleigh resolution. , 2008 .

[1222] A. Beale,et al. Adding a third dimension to operando spectroscopy: a combined UV-Vis, Raman and XAFS setup to study heterogeneous catalysts under working conditions. , 2005, Chemical communications.

[1223] Uwe Bergmann,et al. 1s2p resonant inelastic X-ray scattering of iron oxides. , 2005, The journal of physical chemistry. B.

[1224] L. Hegedüs,et al. Hydrogenation of pyrrole derivatives. II. Hydrogenations over supported noble metal catalysts , 1996 .

[1225] G. Beni,et al. Temperature and polarization dependence of extended x-ray absorption fine-structure spectra , 1976 .

[1226] S. Mohapatra,et al. Synthesis and characterization of divalent cobalt-substituted mesoporous aluminophosphate molecular sieves and their application as novel heterogeneous catalysts for the oxidation of cycloalkanes , 2005 .

[1227] N. Binsted,et al. EXAFS and near-edge structure in the cobalt K-edge absorption spectra of metal carbonyl complexes , 1987 .

[1228] M. A. Vuurman,et al. Characterization of chromium oxide supported on Al2O3, ZrO2, TiO2, and SiO2 under dehydrated conditions , 1993 .

[1229] C. Lamberti,et al. Structural determination of copper species on the alumina-supported copper chloride catalyst: a detailed EXAFS study , 2003 .

[1230] B. Weckhuysen,et al. Bis(mu-oxo)dicopper as intermediate in the catalytic decomposition of NO over Cu-ZSM-5 , 2004 .

[1231] S. Colonna,et al. Cell for the in situ study of heterogeneous catalysts by transmission and fluorescence XAS spectroscopy , 1999 .

[1232] B. Weckhuysen. Preface: recent advances in the in-situ characterization of heterogeneous catalysts , 2010 .

[1233] J. Bokhoven,et al. Particle Size Effect of Hydride Formation and Surface Hydrogen Adsorption of Nanosized Palladium Catalysts: L3 Edge vs K Edge X-ray Absorption Spectroscopy , 2009 .

[1234] S. Staniland,et al. Rapid magnetosome formation shown by real-time x-ray magnetic circular dichroism , 2007, Proceedings of the National Academy of Sciences.

[1235] A. Arcoya,et al. Optimization of copper chloride based catalysts for ethylene oxyhydrochlorination , 1982 .

[1236] D Aberdam. SEDEM, a software package for EXAFS data extraction and modelling. , 1998, Journal of synchrotron radiation.

[1237] Y. Kuroda,et al. New Analysis of Oxidation State and Coordination Environment of Copper Ion-Exchanged in ZSM-5 Zeolite , 1999 .

[1238] I. Nam,et al. N2O decomposition over wet- and solid-exchanged Fe-ZSM-5 catalysts , 2008 .

[1239] M. Siegbahn. Spektroskopie der Röntgenstrahlen , 1931 .

[1240] L. Guczi,et al. Bimetallic Cobalt Based Catalysts , 2010 .

[1241] A. Bianconi,et al. Relevant role of hydrogen atoms in the XANES of Pd hydride: Evidence of hydrogen induced unoccupied states , 1993 .

[1242] N. Mizuno,et al. Novel Preparation Method of Highly Copper Ion-exchanged ZSM-5 Zeolites and Their Catalytic Activities for NO Decomposition , 1990 .

[1243] Can Li,et al. UV Raman spectroscopic study on the synthesis mechanism and assembly of molecular sieves. , 2010, Chemical Society reviews.

[1244] J. Grunwaldt,et al. In situ EXAFS study on the oxidation state of Pd/Al2O3 and Bi–Pd/Al2O3 during the liquid-phase oxidation of 1-phenylethanol , 2004 .

[1245] D. Resasco,et al. Stabilization of the active phase by interaction with the support in CuCl2 oxychlorination catalysts , 1986 .

[1246] Jihyun An,et al. High and selective CO2 uptake in a cobalt adeninate metal-organic framework exhibiting pyrimidine- and amino-decorated pores. , 2010, Journal of the American Chemical Society.

[1247] S. Hasnain,et al. State-of-the-Art Analysis of Whole X-ray Absorption Spectra. , 1996, Journal of synchrotron radiation.

[1248] L. Belfiore,et al. Spectroscopic analysis of transition-metal coordination complexes based on poly(4-vinylpyridine) and dichlorotricarbonylruthenium(II) , 1999 .

[1249] A. Corma,et al. Ti/ITQ-2, a new material highly active and selective for the epoxidation of olefins with organic hydroperoxides , 1999 .

[1250] V. Briois,et al. Applications in materials science of combining Raman and X-rays at the macro- and micrometric scale , 2009 .

[1251] P. Frediani,et al. PREPARATION, CHARACTERIZATION, AND PERFORMANCE OF TRIPODAL POLYPHOSPHINE RHODIUM CATALYSTS IMMOBILIZED ON SILICA VIA HYDROGEN BONDING , 1999 .

[1252] U. Bergmann,et al. High-resolution structure of the photosynthetic Mn4Ca catalyst from X-ray spectroscopy , 2008, Philosophical Transactions of the Royal Society B: Biological Sciences.

[1253] D. Koningsberger,et al. XAFS characterization of the binuclear iron complex in overexchanged Fe/ZSM5 – structure and reactivity , 2000 .

[1254] Kazunori Yagi,et al. New light on the state of active sites in CuZSM-5 for the NO decomposition reaction and N2 adsorption , 2003 .

[1255] Stacey I. Zones,et al. Product selectivity in methanol to hydrocarbon conversion for isostructural compositions of AFI and CHA molecular sieves , 1994 .

[1256] C. Lamberti,et al. Structure and Enhanced Reactivity of Chromocene Carbonyl Confined inside Cavities of NaY Zeolite , 2009 .

[1257] William A. Goddard,et al. Metal−Organic Frameworks Provide Large Negative Thermal Expansion Behavior , 2007 .

[1258] Y. Iwasawa,et al. Alternative selective oxidation pathways for aldehyde oxidation and alkene epoxidation on a SiO2-supported Ru-monomer complex catalyst. , 2010, Journal of the American Chemical Society.

[1259] Hao Shen,et al. Single-molecule fluorescence imaging of nanocatalytic processes. , 2010, Chemical Society reviews.

[1260] J. Bünzli,et al. Lanthanide 8-hydroxyquinoline-based podates with efficient emission in the NIR range. , 2005, Chemical communications.

[1261] D. Ramaker,et al. Structure of ethene adsorption sites on supported metal catalysts from in situ XANES Analysis. , 2007, Journal of the American Chemical Society.

[1262] J. F. Creemer,et al. Nanoscale chemical imaging of a working catalyst by scanning transmission X-ray microscopy , 2008, Nature.

[1263] A. S. Rao,et al. The spectra of Br V, Br VI and Br VII , 1934 .

[1264] S. Johnson,et al. Femtosecond XANES Study of the Light-Induced Spin Crossover Dynamics in an Iron(II) Complex , 2009, Science.

[1265] D. Ramaker,et al. A new model describing the metal-support interaction in noble metal catalysts , 1999 .

[1266] G. Reid,et al. Cr K‐Edge XANES Spectroscopy: Ligand and Oxidation State Dependence — What is Oxidation State? , 2007 .

[1267] S. Mangani,et al. Identification of copper(II) binding sites in the aminoglycosidic antibiotic Neomycin B , 2005 .

[1268] C. Lamberti,et al. In Situ Characterization of Catalysts Active in Partial Oxidations: TS-1 and Fe-MFI Case Studies , 2002 .

[1269] J. Rehr,et al. Parameter-free calculations of X-ray spectra with FEFF9. , 2010, Physical chemistry chemical physics : PCCP.

[1270] S. Koonin. Environmental fine structure in low-energy β-particle spectra , 1991, Nature.

[1271] Michael J Zaworotko,et al. Design and synthesis of metal-organic frameworks using metal-organic polyhedra as supermolecular building blocks. , 2009, Chemical Society reviews.

[1272] B. Sels,et al. Transition-metal ions in zeolites: coordination and activation of oxygen. , 2010, Inorganic chemistry.

[1273] H. Renevier,et al. Grazing Incidence Diffraction Anomalous Fine Structure in the Study of Structural Properties of Nanostructures , 2013 .

[1274] A. Matzger,et al. Liquid phase separations by crystalline microporous coordination polymers , 2010 .

[1275] M. Chergui,et al. A full multiple scattering model for the analysis of time-resolved X-ray difference absorption spectra. , 2006, The journal of physical chemistry. B.

[1276] C. Lamberti,et al. Orthorhombic to monoclinic phase transition in high-Ti-loaded TS-1: an attempt to locate Ti in the MFI framework by low temperature XRD , 2000 .

[1277] A. Urakawa,et al. Size selectivity of a copper metal-organic framework and origin of catalytic activity in epoxide alcoholysis. , 2009, Chemistry.

[1278] T. Root,et al. DFT Study of Solvent Coordination Effects on Titanium-Based Epoxidation Catalysts. Part One: Formation of the Titanium Hydroperoxo Intermediate , 2003 .

[1279] Omar M Yaghi,et al. Isoreticular metalation of metal-organic frameworks. , 2009, Journal of the American Chemical Society.

[1280] A. Scherz,et al. A systematic study of embedded atom EXAFS: the (2 × 1)O/Cu(110) reconstruction as an ideal prototype system , 2003 .

[1281] N. Bârsan,et al. Operando X-ray absorption spectroscopy studies on Pd-SnO2 based sensors. , 2009, Physical chemistry chemical physics : PCCP.

[1282] Marius Vaarkamp,et al. Obtaining reliable structural parameters from EXAFS , 1998 .

[1283] Craig M. Brown,et al. Hydrogen storage in a microporous metal-organic framework with exposed Mn2+ coordination sites. , 2006, Journal of the American Chemical Society.

[1284] S. Nguyen,et al. A Zn-based, pillared paddlewheel MOF containing free carboxylic acids via covalent post-synthesis elaboration. , 2009, Chemical communications.

[1285] H. Kung,et al. Study of Supported PtCu and PdAu Bimetallic Nanoparticles Using In-Situ X-ray Tools† , 2010 .

[1286] Edward A. Stern,et al. Extended x-ray-absorption fine-structure technique. III. Determination of physical parameters , 1975 .

[1287] Richard P Van Duyne,et al. Resonance Raman and surface- and tip-enhanced Raman spectroscopy methods to study solid catalysts and heterogeneous catalytic reactions. , 2010, Chemical Society reviews.

[1288] Joachim Sauer,et al. Finding transition structures in extended systems: A strategy based on a combined quantum mechanics–empirical valence bond approach , 2000 .

[1289] J. Hazemann,et al. Structural relaxation around substitutional Cr3+ in MgAl2O4 , 2007, 0704.0878.

[1290] V. Bailey. XLIII. The mental multiplication and division of large numbers , 1921 .

[1291] L. Kustov,et al. Investigation of the different states of gallium in crystalline gallosilicates with pentasil structure and their role in propane aromatization , 1990 .

[1292] S. Kitagawa,et al. Photoactivation of a nanoporous crystal for on-demand guest trapping and conversion. , 2010, Nature materials.

[1293] Theoretical Interpretation of XAFS and XANES in Pt Clusters , 2002 .

[1294] G. Spoto,et al. Spectroscopic Studies (UV-Vis and FTIR) of CO and Ethene Molecular-Complexes and of Ethene Oligomerization on Alpha-Cr2O3 Surfaces , 1994 .

[1295] R. Schlögl,et al. Investigation of Ammonia Oxidation over Copper with In Situ NEXAFS in the Soft X-Ray Range: Influence of Pressure on the Catalyst Performance , 2001 .

[1296] Axel E. Lindh. Zur Kenntnis des Röntgenabsorptionsspektrums von Chlor , 1921 .

[1297] B. Weckhuysen,et al. Redox behaviour of over-exchanged Fe/ZSM5 zeolites studied with in-situ soft X-ray absorption spectroscopy , 2003 .

[1298] K. Schwarz,et al. Electronic structure of solids with WIEN2k , 2010 .

[1299] B. Batterman,et al. Dynamical Diffraction of X Rays by Perfect Crystals , 1964 .

[1300] H. Kitagawa,et al. Highly proton-conductive copper coordination polymer, H2dtoaCu (H2dtoa=dithiooxamide anion) , 2003 .

[1301] García,et al. Multielectron excitations in the K-edge x-ray-absorption near-edge spectra of V, Cr, and Mn 3d0 compounds with tetrahedral coordination. , 1991, Physical review. B, Condensed matter.

[1302] C. Lamberti,et al. Hydrogen adsorption and spill-over effects on H–Y and Pd-containing Y zeolites: An experimental and theoretical investigation , 2006 .

[1303] D. P. Woodruff. Adsorbate structure determination using photoelectron diffraction: Methods and applications , 2007 .

[1304] R. Prins,et al. Time-resolved in situ XAS study of the preparation of supported gold clusters. , 2007, Physical chemistry chemical physics : PCCP.

[1305] A. Miyamoto,et al. Highly selective synthesis of light olefins from methanol on a novel Fe-silicate , 1986 .

[1306] C. Lamberti,et al. The role of chlorine and additives on the density and strength of Lewis and Brønsted acidic sites of γ-Al2O3 support used in oxychlorination catalysis: A FTIR study , 2011 .

[1307] R. M. Lambert,et al. In situ studies of catalysts under reaction conditions by total electron-yield XAS: Possibilities and limitations of a new experimental technique , 1996 .

[1308] E. Wolf,et al. In situ EXAFS and FTIR studies of the promotion behavior of Pt–Nb2O5/Al2O3 catalysts during the preferential oxidation of CO , 2009 .

[1309] Hans-Dieter Martin,et al. Das Mülheimer Normaldruck‐Polyäthylen‐Verfahren , 1955 .

[1310] C. Lamberti,et al. Structure–activity relationships of simple molecules adsorbed on CPO-27-Ni metal–organic framework: In situ experiments vs. theory , 2012 .

[1311] A. A. Shteinman,et al. Evolution of Iron States and Formation of α-Sites upon Activation of FeZSM-5 Zeolites , 2002 .

[1312] T. Ressler. WinXAS: a program for X-ray absorption spectroscopy data analysis under MS-Windows. , 1998, Journal of synchrotron radiation.

[1313] C. Lamberti,et al. Ti location in the MFI framework of Ti-Silicalite-1: a neutron powder diffraction study. , 2001, Journal of the American Chemical Society.

[1314] Céline Chizallet,et al. H2‐Induced Reconstruction of Supported Pt Clusters: Metal–Support Interaction versus Surface Hydride , 2011 .

[1315] C. Rovira,et al. A nanoporous molecular magnet with reversible solvent-induced mechanical and magnetic properties , 2003, Nature materials.

[1316] Z. Sobalík,et al. Coordination of Cu Ions in High-Silica Zeolite Matrixes. Cu+ Photoluminescence, IR of NO Adsorbed on Cu2+, and Cu2+ ESR Study , 1995 .

[1317] P. Claus,et al. Catalytic and Mechanistic Investigation of Polyaniline Supported PtO2Nanoparticles: A Combinedin situ/operandoEPR, DRIFTS, and EXAFS Study , 2008 .

[1318] Mark E. Davis,et al. Studies on the Catalytic-Oxidation of Alkanes and Alkenes by Titanium Silicates , 1994 .

[1319] A. Corma,et al. Ti-ferrierite and TiITQ-6: synthesis and catalytic activity for the epoxidation of olefins with H2O2 , 2000 .

[1320] H. Padmore,et al. The undulator beamline at the SRS Daresbury , 1992 .

[1321] A. Frenkel,et al. Characterization of palladium nanoparticles by using X-ray reflectivity, EXAFS, and electron microscopy. , 2006, Langmuir : the ACS journal of surfaces and colloids.

[1322] Zhirong Huang,et al. A review of x-ray free-electron laser theory. , 2007 .

[1324] Manuel Sánchez Del Ruío,et al. NPI, a Code for EXAFS Data Analysis , 1995, Comput. Chem..

[1325] Freek Kapteijn,et al. Building MOF bottles around phosphotungstic acid ships: One-pot synthesis of bi-functional polyoxometalate-MIL-101 catalysts , 2010 .

[1326] Hydrogen storage in Chabazite zeolite frameworks. , 2005, Physical chemistry chemical physics : PCCP.

[1327] E. Stern,et al. Extended x-ray-absorption fine-structure technique. II. Experimental practice and selected results , 1975 .

[1328] H Li,et al. Modular chemistry: secondary building units as a basis for the design of highly porous and robust metal-organic carboxylate frameworks. , 2001, Accounts of chemical research.

[1329] C. Lamberti,et al. XAFS study of Ti-silicalite: structure of framework Ti(IV) in presence and in absence of reactive molecules (H2O, NH3) , 1994 .

[1330] G. M. De Luca,et al. Magnetic excitations and phase separation in the underdoped La2-xSrxCuO4 superconductor measured by resonant inelastic X-ray scattering. , 2010, Physical review letters.

[1331] C. Lamberti,et al. Characterisation of defective silicalites , 2000 .

[1332] F. Kapteijn,et al. NO Adsorption on Ex-Framework [Fe,X]MFI Catalysts: Novel IR Bands and Evaluation of Assignments , 2002 .

[1333] N. Motta,et al. EXAFS measurements on FeB metallic glasses: Asymmetry of the radial distribution function , 1981 .

[1334] C. Natoli,et al. Full quantitative multiple-scattering analysis of X-ray absorption spectra: application to potassium hexacyanoferrat(II) and -(III) complexes. , 2004, Journal of the American Chemical Society.

[1335] J. Čejka,et al. CATALYTIC ACTIVITY OF CU ION-EXCHANGED METALLOALUMINOPHOSPHATES IN NO DECOMPOSITION , 1998 .

[1336] Andrew M. Beale,et al. Combined time-resolved X-ray scattering and spectroscopy methods , 2012 .

[1337] K. Baberschke,et al. New opportunities in soft X-ray absorption to characterise the adsorbate bonding , 2000 .

[1338] Tianxi Liu,et al. A new method for extracting x-ray absorption fine structure and the atomic background from an x-ray absorption spectrum , 1997 .

[1339] N. Takagi,et al. In situ redispersion of platinum autoexhaust catalysts: an on-line approach to increasing catalyst lifetimes? , 2008, Angewandte Chemie.

[1340] A. Beale,et al. EXAFS as a tool to interrogate the size and shape of mono and bimetallic catalyst nanoparticles. , 2010, Physical chemistry chemical physics : PCCP.

[1341] N. Rösch,et al. Comparison of all sites for Ti substitution in zeolite TS-1 by an accurate embedded-cluster method. , 2005, The journal of physical chemistry. B.

[1342] G. Tian,et al. Ordered mesoporous titanosilicates with catalytically stable and active four-coordinated titanium sites. , 2004, Chemical communications.

[1343] Uwe Bergmann,et al. The electronic structure of Mn in oxides, coordination complexes, and the oxygen-evolving complex of photosystem II studied by resonant inelastic X-ray scattering. , 2004, Journal of the American Chemical Society.

[1344] G. Spoto,et al. Formation of CuI—N2 adducts at 298 and 77 K in CuI-ZSM-5: an FTIR investigation , 1995 .

[1345] C. Lamberti,et al. A Multitechnique Approach to Spin-Flips for Cp2Cr(II) Chemistry in Confined State , 2010 .

[1346] A. Dent,et al. In situ, time resolved, and simultaneous multi-edge determination of local order change during reduction of supported bimetallic (Pt–Ge) catalyst precursors using energy dispersive EXAFS , 2001 .

[1347] P. Sermon,et al. Nature of oxide-supported copper(II) ions and copper derived from copper(II) chloride , 1987 .

[1348] W. Bras,et al. A new experimental cell for in situ and operandoX-ray absorption measurements in heterogeneous catalysis. , 2005, Journal of synchrotron radiation.

[1349] Jeroen van den Brink,et al. Resonant Inelastic X-ray Scattering Studies of Elementary Excitations , 2010, 1009.3630.

[1350] Simon J L Billinge,et al. Beyond crystallography: the study of disorder, nanocrystallinity and crystallographically challenged materials with pair distribution functions. , 2004, Chemical communications.

[1351] J. Smith. Crystal structures with a chabazite framework. I. Dehydrated Ca-chabazite , 1962 .

[1352] J. Eckert,et al. The siting of Ti in TS-1 is non-random. Powder neutron diffraction studies and theoretical calculations of TS-1 and FeS-1 , 2000 .

[1353] A. Delabie,et al. The Coordination of CuII in Zeolites − Structure and Spectroscopic Properties , 2002 .

[1354] S. Doniach,et al. Theory of extended x-ray absorption edge fine structure (EXAFS) in crystalline solids , 1975 .

[1355] V. Dufaud,et al. Supported metallocene catalysts by surface organometallic chemistry. Synthesis, characterization, and reactivity in ethylene polymerization of oxide-supported mono- and biscyclopentadienyl zirconium alkyl complexes: establishment of structure/reactivity relationships. , 2001, Journal of the American Chemical Society.

[1356] Christoph Rau,et al. Microimaging and tomography with chemical speciation , 2003 .

[1357] G. Thornton,et al. The initial stages of Cr and Ti growth on SiO2(0001) , 1999 .

[1358] W. A. Dench,et al. Quantitative electron spectroscopy of surfaces: A standard data base for electron inelastic mean free paths in solids , 1979 .

[1359] A. Urakawa,et al. Space-Resolved Profiling Relevant in Heterogeneous Catalysis , 2009 .

[1360] J. Lercher,et al. Sulfate formation on SOx trapping materials studied by Cu and S K-edge XAFS. , 2005, Physical chemistry chemical physics : PCCP.

[1361] Sang Soo Han,et al. Recent advances on simulation and theory of hydrogen storage in metal-organic frameworks and covalent organic frameworks. , 2009, Chemical Society reviews.

[1362] Jeffrey R. Long,et al. Strong H2 Binding and Selective Gas Adsorption within the Microporous Coordination Solid Mg3(O2C-C10H6-CO2)3 , 2005 .

[1363] K. Schwarz,et al. Electronic structure calculations of solids using the WIEN2k package for material sciences , 2002 .

[1364] Irina Snigireva,et al. Nanofocusing parabolic refractive x-ray lenses , 2003 .

[1365] G. Ertl,et al. Handbook of Heterogeneous Catalysis , 1997 .

[1366] Samuel M. Webb,et al. SIXpack: a graphical user interface for XAS analysis using IFEFFIT , 2005 .

[1367] J. Sinfelt,et al. Structure of bimetallic clusters , 1987 .

[1368] A. Bell,et al. Characterization of Cu-ZSM-5 Prepared by Solid-State Ion Exchange of H-ZSM-5 with CuCl , 2006 .

[1369] A. Jentys,et al. Estimation of mean size and shape of small metal particles by EXAFS , 1999 .

[1370] Jie Zheng,et al. Promoted H2 generation from NH3BH3 thermal dehydrogenation catalyzed by metal-organic framework based catalysts. , 2010, Chemistry.

[1371] M. Sierka,et al. Coordination of Cu+ Ions to Zeolite Frameworks Strongly Enhances Their Ability To Bind NO2. An ab Initio Density Functional Study , 1998 .

[1372] F. d’Acapito,et al. μ-EXAFS, μ-XRF, and μ-PL characterization of a multi-quantum-well electroabsorption modulated laser realized via selective area growth. , 2011, Small.

[1373] A. A. Shteinman,et al. Kinetic isotope effects and mechanism of biomimetic oxidation of methane and benzene on FeZSM-5 zeolite , 1997 .

[1374] B. Sels,et al. Coordination chemistry and reactivity of copper in zeolites , 2013 .

[1375] A. Frenkel,et al. Synchrotron Studies of Catalysts: From XAFS to QEXAFS and Beyond , 2009 .

[1376] R. Nuzzo,et al. The atomic structural dynamics of γ-Al2O3 supported Ir-Pt nanocluster catalysts prepared from a bimetallic molecular precursor: a study using aberration-corrected electron microscopy and X-ray absorption spectroscopy. , 2011, Journal of the American Chemical Society.

[1377] Rochus Schmid,et al. Exploring Network Topologies of Copper Paddle Wheel Based Metal–Organic Frameworks with a First-Principles Derived Force Field , 2011 .

[1378] Mark A. Rodriguez,et al. Capture of volatile iodine, a gaseous fission product, by zeolitic imidazolate framework-8. , 2011, Journal of the American Chemical Society.

[1379] A. Cheetham,et al. A neutron diffraction and infrared spectroscopy study of the acid form of the aluminosilicate zeolite, chabazite (H- SSZ-13) , 1997 .

[1380] J. Pérez-Pariente,et al. The state of Ti in titanoaluminosilicates isomorphous with zeolite .beta. , 1993 .

[1381] G. Pirngruber,et al. The characterisation and catalytic properties of biomimetic metal-peptide complexes immobilised on mesoporous silica. , 2009, Physical chemistry chemical physics : PCCP.

[1382] H. Ebert,et al. Fully relativistic theory for the magnetic extended x-ray absorption fine structure , 1998 .

[1383] K. Lillerud,et al. Designing Heterogeneous Catalysts by Incorporating Enzyme-Like Functionalities into MOFs , 2010 .

[1384] A. Dent,et al. Rapid monitoring of the nature and interconversion of supported catalyst phases and of their influence upon performance: CO oxidation to CO2 by gamma-Al2O3 supported Rh catalysts. , 2006, Chemistry.

[1385] Mark E. Davis. Ordered porous materials for emerging applications , 2002, Nature.

[1386] M. Fernández-García,et al. Hard X-ray Photon-In Photon-Out Spectroscopy , 2009 .

[1387] L. Dubrovinsky,et al. Development of micro-XANES mapping in the diamond anvil cell. , 2009, Journal of synchrotron radiation.

[1388] M. Newton,et al. Combining synchrotron-based X-ray techniques with vibrational spectroscopies for the in situ study of heterogeneous catalysts: a view from a bridge. , 2010, Chemical Society reviews.

[1389] A. Bell,et al. Synthesis of dimethyl carbonate and dimethoxy methane over Cu-ZSM-5 , 2006 .

[1390] Cross,et al. Diffraction anomalous fine structure: A new x-ray structural technique. , 1992, Physical review letters.

[1391] Carlo Lamberti,et al. A new zirconium inorganic building brick forming metal organic frameworks with exceptional stability. , 2008, Journal of the American Chemical Society.

[1392] B. Smit,et al. Entropy effects during sorption of alkanes in zeolites. , 2002, Chemical Society reviews.

[1393] Wu Zhou. Nanostructural and Chemical Characterization of Supported Metal Oxide Catalysts by Aberration Corrected Analytical Electron Microscopy , 2012 .

[1394] M. Niwa,et al. High catalytic activity for synthesis of aniline from phenol and ammonia found on gallium-containing MFI , 1999 .

[1395] M. Roeffaers,et al. Fluorescence micro(spectro)scopy as a tool to study catalytic materials in action. , 2010, Chemical Society reviews.

[1396] H. N. Chapman,et al. Imaging Atomic Structure and Dynamics with Ultrafast X-ray Scattering , 2007, Science.

[1397] C. Lamberti,et al. Evidence of the Presence of Two Different Framework Ti(IV) Species in Ti−Silicalite-1 in Vacuo Conditions: an EXAFS and a Photoluminescence Study , 1998 .

[1398] K. Chao,et al. Characterization of heterogeneous catalysts by X-ray absorption spectroscopy , 2001 .

[1399] R. Frahm,et al. The energy dispersive X-ray absorption spectrometer DEXAFS at HASYLAB , 1989 .

[1400] Katrin F. Domke,et al. Label-free chemical imaging of catalytic solids by coherent anti-Stokes Raman scattering and synchrotron-based infrared microscopy. , 2009, Angewandte Chemie.

[1401] M. Clerici,et al. Epoxidation of Lower Olefins with Hydrogen Peroxide and Titanium Silicalite , 1993 .

[1402] K. A. Dubkov,et al. Selective oxidation of methane to methanol on a FeZSM-5 surface , 1995 .

[1403] A. Corma,et al. Titanium-Catalyzed Heterogeneous Oxidations of Silanes, Chiral Allylic Alcohols, 3-Alkylcyclohexanes, and Thianthrene 5-Oxide: A Comparison of the Reactivities and Selectivities for the Large-Pore Zeolite Ti-β, the Mesoporous Ti-MCM-41, and the Layered Alumosilicate Ti-ITQ-2 , 2000 .

[1404] C. Roth,et al. Kinetics of CO Poisoning in Simulated Reformate and Effect of Ru Island Morphology on PtRu Fuel Cell Catalysts As Determined by Operando X-ray Absorption Near Edge Spectroscopy , 2007 .

[1405] J. Hazemann,et al. FAME: a new beamline for x-ray absorption investigations of very-diluted systems of environmental, material and biological interests , 2005 .

[1406] H Bornebusch,et al. A new approach for QEXAFS data acquisition. , 1999, Journal of synchrotron radiation.

[1407] M. Sawada,et al. Fine Structures of X-ray Absorption Spectra of Crystalline and Amorphous Germanium , 1957 .

[1408] I. Arčon,et al. Manganese-Containing Silica-Based Microporous Molecular Sieve MnS-1: Synthesis and Characterization , 2003 .

[1409] A. MacDowell,et al. A soft/hard x-ray beamline for surface EXAFS studies in the energy range 0. 8--15 keV , 1989 .

[1410] R. Frahm,et al. Quick scanning exafs: First experiments , 1988 .

[1411] G. Spoto,et al. Fourier-transform infrared and Raman spectra of pure and Al-, B-, Ti- and Fe-substituted silicalites: stretching-mode region , 1993 .

[1412] Nigel M. Allinson,et al. PDA system for energy dispersive EXAFS , 1988 .

[1413] Lin X. Chen,et al. Revealing Structural Dynamics in Catalytic Reactions Using Ultrafast Transient X-ray Absorption Spectroscopy , 2009 .

[1414] Rachel B. Getman,et al. Review and analysis of molecular simulations of methane, hydrogen, and acetylene storage in metal-organic frameworks. , 2012, Chemical reviews.

[1415] A. Barbier,et al. A new UHV diffractometer for surface structure and real time molecular beam deposition studies with synchrotron radiations at ESRF , 1999 .

[1416] H. Frei,et al. Photochemical and FT-IR probing of the active site of hydrogen peroxide in Ti silicalite sieve. , 2002, Journal of the American Chemical Society.

[1417] I. Robinson,et al. Direct separation of short range order in intermixed nanocrystalline and amorphous phases. , 2002, Physical review letters.

[1418] C. Serre,et al. Large breathing effects in three-dimensional porous hybrid matter: facts, analyses, rules and consequences. , 2009, Chemical Society reviews.

[1419] D. Coster,et al. Bestimmung des Absorptionskoeffizienten für Röntgenstrahlen in der Nähe derK-Absorptionskante der Elemente Cu und Zn , 1931 .

[1420] C. Catlow,et al. Computer simulation of Fe-ZSM5 — comparison to EXAFS studies , 1995 .

[1421] Y. Iwasawa,et al. A new method for quantitative characterization of adsorbed hydrogen on Pt particles by means of Pt L-edge XANES , 1996 .

[1422] A. Becke. A New Mixing of Hartree-Fock and Local Density-Functional Theories , 1993 .

[1423] L. Böhm. The ethylene polymerization with Ziegler catalysts: fifty years after the discovery. , 2003, Angewandte Chemie.

[1424] C. Garino,et al. Synchrotron ultrafast techniques for photoactive transition metal complexes , 2013, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[1425] A. Corma,et al. AlITQ-6 and TiITQ-6: Synthesis, Characterization, and Catalytic Activity We thank the Spanish CICYT for financial support (project MAT97-1016-C02-01 and project MAT97-1207-C03-01). U.D. and M.E.D. thank the M.E.C. and M.E.A., respectively, for funding their doctoral fellowships. , 2000, Angewandte Chemie.

[1426] M. Schoonen,et al. The Structure of Ferrihydrite, a Nanocrystalline Material , 2007, Science.

[1427] G. Panov,et al. Room-Temperature Oxidation of Methane by α-Oxygen and Extraction of Products from the FeZSM-5 Surface , 2011 .

[1428] J. Fierro,et al. The usefulness of time-dependent density functional theory to describe the electronic spectra of ti-containing catalysts. , 2003, Angewandte Chemie.

[1429] J. Grunwaldt,et al. Catalysts at work: From integral to spatially resolved X-ray absorption spectroscopy , 2009 .

[1430] D. Siddons,et al. Elimination of the inner-shell lifetime broadening in x-ray-absorption spectroscopy. , 1991, Physical review letters.

[1431] G. Sankar,et al. The role of synchrotron-based studies in the elucidation and design of active sites in titanium-silica epoxidation catalysts. , 2001, Accounts of chemical research.

[1432] Z. Tang,et al. Metal−Organic Framework Supported Gold Nanoparticles as a Highly Active Heterogeneous Catalyst for Aerobic Oxidation of Alcohols , 2010 .

[1433] G. Mickelson,et al. Design and operation of a high pressure reaction cell for in situ X-ray absorption spectroscopy , 2007 .

[1434] R. Schmid,et al. Metal@MOF: loading of highly porous coordination polymers host lattices by metal organic chemical vapor deposition. , 2005, Angewandte Chemie.

[1435] D. Koningsberger,et al. A new method for parameterization of phase shift and backscattering amplitude , 1995 .

[1436] M. Stockenhuber,et al. An Hermite expansion method for EXAFS data treatment and its application to Fe K-edge spectra , 2000 .

[1437] A. Corma,et al. Metal–organic frameworks as semiconductors , 2010 .

[1438] G. Frenking,et al. Nonclassical Metal Carbonyls: Appropriate Definitions with a Theoretical Justification. , 1998, Angewandte Chemie.

[1439] M. Chergui,et al. Structural determination of a photochemically active diplatinum molecule by time-resolved EXAFS spectroscopy. , 2009, Angewandte Chemie.

[1440] Y. Tsurita,et al. Structure of an aluminosilicophosphate , 1985 .

[1441] M. Di Michiel,et al. Combining time-resolved hard X-ray diffraction and diffuse reflectance infrared spectroscopy to illuminate CO dissociation and transient carbon storage by supported Pd nanoparticles during CO/NO cycling. , 2010, Journal of the American Chemical Society.

[1442] Shuichi Kagawa,et al. Removal of nitrogen monoxide through a novel catalytic process. 1. Decomposition on excessively copper-ion-exchanged ZSM-5 zeolites , 1991 .

[1443] Hong-Cai Zhou,et al. Selective gas adsorption and separation in metal-organic frameworks. , 2009, Chemical Society reviews.

[1444] A. Corma,et al. Nanoparticles of Pd on Hybrid Polyoxometalate−Ionic Liquid Material: Synthesis, Characterization, and Catalytic Activity for Heck Reaction , 2010 .

[1445] T. Yokoyama,et al. Adsorption of SO2 on Cu(100) studied by X-ray absorption fine structure spectroscopy and scanning tunneling microscopy , 1997 .

[1446] S. Kaliaguine,et al. Titanium sites in titanium silicalites: An XPS, XANES and EXAFS study , 1992 .

[1447] A. Corma,et al. Synthesis, Characterization, and Catalytic Activity of Ti-MCM-41 Structures , 1995 .

[1448] G. Pirngruber,et al. The surface chemistry of N2O decomposition on iron-containing zeolites (II)—The effect of high-temperature pretreatments , 2004 .

[1449] Saeed Amirjalayer,et al. First-Principles-Derived Force Field for Copper Paddle-Wheel-Based Metal−Organic Frameworks , 2010 .

[1450] C. Lamberti,et al. Local Structure of Framework Cu(II) in HKUST-1 Metallorganic Framework: Spectroscopic Characterization upon Activation and Interaction with Adsorbates , 2006 .

[1451] Daofeng Sun,et al. An interweaving MOF with high hydrogen uptake. , 2006, Journal of the American Chemical Society.

[1452] K Wille,et al. Synchrotron radiation sources , 1991 .

[1453] P. Milani,et al. Beta environmental fine structure characterization of defects , 1999 .

[1454] R. A. Santen,et al. Catalytic Activity of Titanium Silicalites—a DFT Study , 1998 .

[1455] A. Ankudinov,et al. Effect of hydrogen adsorption on the x-ray absorption spectra of small Pt clusters. , 2001, Physical review letters.

[1456] John J. Rehr,et al. Progress in the theory and interpretation of XANES , 2005 .

[1457] E. Solomon,et al. Electronic structures of active sites on metal oxide surfaces: definition of the copper-zinc oxide methanol synthesis catalyst by photoelectron spectroscopy , 1993 .

[1458] Masaki Abe,et al. Selective Reduction of NO with Propylene on Fe-silicate Catalysts , 1991 .

[1459] G. Leofanti,et al. Comparison of H2Adsorption, O2Adsorption, H2Titration, and O2Titration on Supported Palladium Catalysts , 1999 .

[1460] L. Belfiore,et al. Macromolecule–metal complexes: ligand field stabilization and thermophysical property modification , 2001 .

[1461] M Newville,et al. IFEFFIT: interactive XAFS analysis and FEFF fitting. , 2001, Journal of synchrotron radiation.

[1462] R. Wagner,et al. K X-RAY ABSORPTION SPECTRA OF GERMANIUM IN CRYSTALLINE AND IN AMORPHOUS GeO$sub 2$ , 1962 .

[1463] Omar M Yaghi,et al. Gas Adsorption Sites in a Large-Pore Metal-Organic Framework , 2005, Science.

[1464] Uwe Bergmann,et al. X-ray emission spectroscopy , 2009, Photosynthesis Research.

[1465] L. Stievano,et al. Real time monitoring of the evolution of Ni2+ environment in faujasite upon rehydration by in situ dispersive-EXAFS , 2005 .

[1466] L. Valenzano,et al. Heats of adsorption of CO and CO2 in metal-organic frameworks: Quantum mechanical study of CPO-27-M (M = Mg, Ni, Zn) , 2011 .

[1467] P. Juhás,et al. Local Structure of Bulk and Nanocrystalline Semiconductors Using Total Scattering Methods , 2013 .