Novel building units in the construction of materials of the oxomolybdate–organodiphosphonate/copper(II)–dipodal-organonitrogen ligand system: Structural influences of dipodal ligand tether length and flexibility

[1]  R. Buchanan Ceramic Materials for Electronics , 2018 .

[2]  C. Knobler,et al.  Metal-organic frameworks of vanadium as catalysts for conversion of methane to acetic acid. , 2011, Inorganic chemistry.

[3]  C. Serre,et al.  Why hybrid porous solids capture greenhouse gases? , 2011, Chemical Society reviews.

[4]  L. Cronin,et al.  Cations in control: crystal engineering polyoxometalate clusters using cation directed self-assembly. , 2010, Dalton transactions.

[5]  Leroy Cronin,et al.  Polyoxometalates: building blocks for functional nanoscale systems. , 2010, Angewandte Chemie.

[6]  J. Zubieta,et al.  A bimetallic oxide framework, [{Cu(bpy)}2Mo4O10(O3PCH2C6H4CH2PO3)2], constructed from novel {Mo4O10(O3PR)4}n4n- chains , 2010 .

[7]  Graham de Ruiter,et al.  Inside Cover: Sequential Logic Operations with Surface‐Confined Polypyridyl Complexes Displaying Molecular Random Access Memory Features (Angew. Chem. Int. Ed. 1/2010) , 2010 .

[8]  J. Zubieta,et al.  Construction of metal-organic oxides from molybdophosphonate clusters and copper-bipyrimidine building blocks. , 2009, Inorganic chemistry.

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

[10]  J. Zubieta,et al.  Organic–inorganic hybrid oxides: Structure and magnetic properties of [{Cu(terpy)}2Mo6O17(H2O)(O3PCH2NH2CH2PO3)2] · H2O, a bimetallic oxide constructed from novel {Mo6O17(H2O)(O3PCH2NH2CH2PO3)2}4− clusters , 2008 .

[11]  Z. Su,et al.  Construction of different dimensional inorganic-organic hybrid materials based on polyoxometalates and metal-organic units via changing metal ions: from non-covalent interactions to covalent connections. , 2008, Dalton transactions.

[12]  D. Liang,et al.  Two Dawson-templated three-dimensional metal-organic frameworks based on oxalate-bridged binuclear cobalt(II)/Nickel(II) SBUs and Bpy linkers. , 2008, Inorganic chemistry.

[13]  Jeong Yong Lee,et al.  3D metal-organic frameworks based on elongated tetracarboxylate building blocks for hydrogen storage. , 2008, Inorganic chemistry.

[14]  R. Thouvenot,et al.  Functionalization of polyoxometalates: towards advanced applications in catalysis and materials science. , 2008, Chemical communications.

[15]  Z. Su,et al.  Assembly of the highest connectivity Wells-Dawson polyoxometalate coordination polymer: the use of organic ligand flexibility. , 2008, Inorganic chemistry.

[16]  Dorina F. Sava,et al.  Quest for zeolite-like metal-organic frameworks: on pyrimidinecarboxylate bis-chelating bridging ligands. , 2008, Journal of the American Chemical Society.

[17]  L. Cronin Molecular Metal Oxides and Clusters as Building Blocks for Functional Nanoscale Architectures and Potential Nanosystems , 2008 .

[18]  J. Zubieta,et al.  Molybdophosphonate clusters as building blocks in the oxomolybdate-organodiphosphonate/cobalt(II)-organoimine system: structural influences of secondary metal coordination preferences and diphosphonate tether lengths. , 2008, Inorganic chemistry.

[19]  Tatsuo C. Kobayashi,et al.  Observation of gas molecules adsorbed in the nanochannels of porous coordination polymers by the in situ synchrotron powder diffraction experiment and the MEM/Rietveld charge density analysis , 2007 .

[20]  Wenbin Lin,et al.  Surface modification and functionalization of nanoscale metal-organic frameworks for controlled release and luminescence sensing. , 2007, Journal of the American Chemical Society.

[21]  M. Jansen Anorganische Festkörperchemie im Konzert der Materialforschung , 2007 .

[22]  C. Hill,et al.  Tetrairon and hexairon hydroxo/acetato clusters stabilized by multiple polyoxometalate scaffolds. Structures, magnetic properties, and chemistry of a dimer and a trimer. , 2007, Inorganic chemistry.

[23]  Jun Li,et al.  Basis Set Exchange: A Community Database for Computational Sciences , 2007, J. Chem. Inf. Model..

[24]  H. Imai Self-Organized Formation of Hierarchical Structures , 2006 .

[25]  Samar K. Das,et al.  Polyoxometalate-supported transition metal complexes and their charge complementarity: synthesis and characterization of [M(OH)6Mo6O18[Cu(Phen)(H2O)2]2][M(OH)6Mo6O18[Cu(Phen)(H2O)Cl]2].5H2O (M = Al(+, Cr3+). , 2005, Inorganic chemistry.

[26]  J. Fierro,et al.  Metal oxides : chemistry and applications , 2005 .

[27]  J. Zubieta,et al.  Phosphomolybdate clusters as molecular building blocks in the design of one-, two- and three-dimensional organic–inorganic hybrid materials , 2005 .

[28]  E. Wang,et al.  The first example of a structure containing both α- and β-octamolybdates: synthesis and structure of a new three-dimensional supramolecular network [Co(2,2′-bipy)3]4[Mo8O26]2·5H2O (2,2′-bipy=2,2′-bipyridine) , 2005 .

[29]  Bartolomeo Civalleri,et al.  CRYSTAL: a computational tool for the ab initio study of the electronic properties of crystals , 2005 .

[30]  J. Zubieta,et al.  Organic–inorganic hybrid materials constructed from copper-organoimine subunits and molybdoarsonate clusters , 2005 .

[31]  J. Zubieta,et al.  A two-dimensional bimetallic oxide constructed from ζ-octamolybdate clusters and Ag(I)-tpyprz cationic polymer components (tpyprz = tetra-2-pyridylpyrazine) , 2004 .

[32]  J. Zubieta,et al.  Solid-state coordination chemistry of the oxomolybdate-organodiphosphonate/nickel-organoimine system: structural influences of the secondary metal coordination cation and diphosphonate tether lengths. , 2004, Inorganic chemistry.

[33]  J. Zubieta,et al.  A new octamolybdate: observation of the θ-isomer in [Fe(tpyprz)2]2[Mo8O26] · 3.7H2O (tpyprz=tetra-2-pyridylpyrazine) , 2004 .

[34]  J. Zubieta,et al.  Synthesis and structure of the two-dimensional bimetallic oxide [H4tphz]3[{Zn2(tphz)(H2O)4}{Mo5O15(O3PCH2CH2PO3)}4] · 14H2O: the hydrothermal conversion of tetra-2-pyridylpyrazine to tetrapyrido [2,3-a:3′,2′-c:2″,3″-h:3‴,2‴-j]phenazine (tphz) , 2004 .

[35]  J. Zubieta,et al.  Hydrothermal synthesis of a one-dimensional bimetallic, mixed valence oxide [{Cu4(terpy)4(PO4)(H2O)2}{W10(VI)W2(V)O36(PO4)}] · 5H2O, a material constructed from {PW12O40}5− and novel {Cu4(terpy)4(PO4)(H2O)2}5+ cluster building blocks , 2004 .

[36]  J. Zubieta,et al.  Hydrothermal synthesis and structure of [Ni(tpyrpyz)2]2[Mo4O12F2][Mo6O19] · 2H2O, a material exhibiting an unusual tetranuclear polyoxofluoromolybdate cluster [Mo4O12F2]2− , 2004 .

[37]  J. Zubieta,et al.  Hydrothermal synthesis and structural characterization of a network oxide constructed from {Mo12O34(O3AsC6H5)4}4− clusters and {Cu(terpy)}2+ subunits , 2004 .

[38]  J. Zubieta,et al.  Solid state coordination chemistry of oxomolybdenum organoarsonate materials. , 2003, Inorganic chemistry.

[39]  J. Zubieta,et al.  Solid state coordination chemistry: one-, two-, and three-dimensional materials constructed from molybdophosphonate subunits linked through binuclear copper tetra-2-pyridylpyrazine groups. , 2003, Inorganic chemistry.

[40]  Prabir K. Dutta,et al.  Handbook of Zeolite Science and Technology , 2003 .

[41]  P. Gouzerh,et al.  Highly efficient peptide bond formation to functionalized Wells-Dawson-type polyoxotungstates. , 2003, Angewandte Chemie.

[42]  J. Zubieta,et al.  The Construction of One‐, Two‐ and Three‐Dimensional Organic–Inorganic Hybrid Materials from Molecular Building Blocks , 2003 .

[43]  Stephen Mann,et al.  Higher-order organization by mesoscale self-assembly and transformation of hybrid nanostructures. , 2003, Angewandte Chemie.

[44]  J. Zubieta,et al.  Hydrothermal synthesis and characterization of a novel bimetallic polyoxocation, [Cu6(dtbbpy)6Mo7O26]2+ (dtbbpy = 4,4′-ditertbutyl-2,2′-biyridine) , 2003 .

[45]  P. Rabu,et al.  Layered Organic–Inorganic Materials: A Way towards Controllable Magnetism , 2003 .

[46]  K. Krämer,et al.  Inorganic solid state optical materials:: Major recent advances , 2002 .

[47]  Bénédicte Lebeau,et al.  Chemical strategies to design textured materials: from microporous and mesoporous oxides to nanonetworks and hierarchical structures. , 2002, Chemical reviews.

[48]  J. Zubieta,et al.  Solid-State Coordination Chemistry of Molybdenum Oxides with di-2-Picolylamine (pca): The Hydrotherm , 2002 .

[49]  A. Clearfield,et al.  Synthesis and Crystal Structures of Copper(II) Diphosphonatoalkanes: C4 and C5 , 2002 .

[50]  S. Feng,et al.  New materials in hydrothermal synthesis. , 2001, Accounts of chemical research.

[51]  K. Byrappa,et al.  Soft Solution Processing: A Strategy for One-Step Processing of Advanced Inorganic Materials , 2000 .

[52]  J. Zubieta,et al.  The structural role of metal-organonitrogen subunits in the molecular manipulation of molybdenum oxides , 1999 .

[53]  J. Zubieta,et al.  Organic-Inorganic Hybrid Materials: From "Simple" Coordination Polymers to Organodiamine-Templated Molybdenum Oxides. , 1999, Angewandte Chemie.

[54]  D. J. Chesnut,et al.  Organic/inorganic composite materials: the roles of organoamine ligands in the design of inorganic solids , 1999 .

[55]  S. Dann,et al.  HYDROTHERMAL SYNTHESIS OF ZEOLITES , 1998 .

[56]  C. Catlow,et al.  Anab initio Hartree–Fock study ofα-MoO3 , 1997 .

[57]  David Feller,et al.  The role of databases in support of computational chemistry calculations , 1996, J. Comput. Chem..

[58]  A. Clearfield,et al.  Synthesis and X-ray Powder Structures of Two Lamellar Copper Arylenebis(phosphonates). , 1996, Inorganic chemistry.

[59]  S. Suib A Review of Open Framework Structures , 1996 .

[60]  J. Gopalakrishnan,et al.  Towards rational synthesis of inorganic solids , 1996 .

[61]  M. Whittingham Hydrothermal synthesis of transition metal oxides under mild conditions , 1996 .

[62]  J. Gopalakrishnan Chimie Douce Approaches to the Synthesis of Metastable Oxide Materials , 1995 .

[63]  L. Interrante,et al.  Materials chemistry : an emerging discipline : developed from a symposium sponsored by the Division of Industrial and Engineering Chemistry, Inc., at the 204th National Meeting of the American Chemical Society, Washington, D.C., August 23-28, 1992 , 1995 .

[64]  A. Cheetham Advanced inorganic materials: an open horizon. , 1994, Science.

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

[66]  W. Büchner Industrial Inorganic Chemistry , 1989 .

[67]  M. T. Pope,et al.  Heteropoly and Isopoly Oxometalates , 1983 .

[68]  A. D. McLean,et al.  Contracted Gaussian basis sets for molecular calculations. I. Second row atoms, Z=11–18 , 1980 .

[69]  P. C. Hariharan,et al.  The influence of polarization functions on molecular orbital hydrogenation energies , 1973 .

[70]  H. Leverenz,et al.  Luminescence of solids , 1950 .

[71]  M. T. Pope,et al.  Polyoxometalate Chemistry For Nano- Composite Design , 2009 .

[72]  Hong Zhao,et al.  In situ hydrothermal synthesis of tetrazole coordination polymers with interesting physical properties. , 2008, Chemical Society reviews.

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

[74]  Leroy Cronin,et al.  Polyoxometalate clusters, nanostructures and materials: from self assembly to designer materials and devices. , 2007, Chemical Society reviews.

[75]  J. Zubieta,et al.  Two-dimensional oxides constructed from octamolybdate clusters and Mn+/tetrapyridylpyrazine subunits (M = Co, Ni: n = 2; M = Cu: n = 1) , 2005 .

[76]  J. Zubieta,et al.  A three-dimensional bimetallic oxide constructed from octamolybdate clusters and copper–ligand cation polymer subunits. A comment on the stability of the octamolybdate isomers , 2004 .

[77]  J. Zubieta,et al.  Octamolybdate subunits as building blocks in the hydrothermal synthesis of organically templated mixed metal oxides: the synthesis and X-ray characterization of [Cu2Mo4O13(3,3'-bipy)2].H2O, [CuMo4O13(Hdipyreth)], and [Cu(dpp)]2[Cu2(α-Mo8O26)(dpp)2].2H2O (3,3'-bipy = 3,3'-bipyridine;dipyreth = 1,2-bi , 2003 .

[78]  M. T. Pope,et al.  Polyoxometalate chemistry : from topology via self-assembly to applications , 2002 .

[79]  G. Sen Earth's Materials: Minerals and Rocks , 2001 .

[80]  Robert M. Hazen,et al.  Comparative Crystal Chemistry of Dense Oxide Minerals , 2000 .

[81]  A. Clearfield Role of ion exchange in solid-state chemistry , 1988 .

[82]  N. N. Greenwood,et al.  Chemistry of the elements , 1984 .

[83]  A. F. Wells,et al.  Structural Inorganic Chemistry , 1971, Nature.

[84]  B. Mason Principles of geochemistry , 1958 .