IR spectroscopic and catalytic characterization of the acidity of imogolite-based systems

[1]  F. Cavani,et al.  Mechanistic studies of the role of formaldehyde in the gas-phase methylation of phenol , 2008 .

[2]  F. Cavani,et al.  The transformations involving methanol in the acid- and base-catalyzed gas-phase methylation of phenol , 2007 .

[3]  S. Nair,et al.  Strain energy minimum and vibrational properties of single-walled aluminosilicate nanotubes , 2006 .

[4]  J. Bargar,et al.  Uranyl adsorption and surface speciation at the imogolite–water interface: Self-consistent spectroscopic and surface complexation models , 2006 .

[5]  C. Gopinath,et al.  A mechanistic approach to phenol methylation on Cu1−xCoxFe2O4: FTIR study , 2004 .

[6]  F. Renzo,et al.  Spectroscopic characterisation of the strength and stability of the acidic sites of Al-rich microporous micelle-templated silicates , 2004 .

[7]  P. Ugliengo,et al.  FTIR spectroscopic and ab initio evidence for an amphipathic character of CO bonding with silanol groups , 2003 .

[8]  Robert J. Davis,et al.  New perspectives on basic zeolites as catalysts and catalyst supports , 2003 .

[9]  Y. Ono Solid base catalysts for the synthesis of fine chemicals , 2003 .

[10]  E. Garrone,et al.  IR study of the acidity of ITQ-2, an “all-surface” zeolitic system , 2003 .

[11]  Michael A. Wilson,et al.  Benzene displacement on imogolite , 2002 .

[12]  J. Gustafsson The Surface Chemistry of Imogolite , 2001 .

[13]  H. Knözinger,et al.  Enhanced surface acidity in mixed alumina–silicas: a low-temperature FTIR study , 2000 .

[14]  J. Bottero,et al.  Structure and affinity towards Cd2+, Cu2+, Pb2+ of synthetic colloidal amorphous aluminosilicates and their precursors , 1999 .

[15]  F. Crea,et al.  FTIR investigation of the interaction at 77 K of diatomic molecular probes on MCM-22 zeolite , 1999 .

[16]  Ø. Mikkelsen,et al.  The conversion of methanol to hydrocarbons over zeolite H-beta , 1999 .

[17]  Yue Fu,et al.  Vapor-phase reactions of catechol with dimethyl carbonate. Part IV: Synthesis of catechol carbonate over alumina loaded with cesium hydroxide , 1999 .

[18]  T. Beutel Spectroscopic and kinetic study of the alkylation of phenol with dimethyl carbonate over NaX zeolite , 1998 .

[19]  J. Lavalley,et al.  Brnsted acidity of extraframework debris in steamed Y zeolites from the FTIR study of CO adsorption , 1998 .

[20]  S. Bordiga,et al.  Vibrational Spectroscopy of NH4+ Ions in Zeolitic Materials: An IR Study , 1997 .

[21]  J. Faulon,et al.  Pore structure of imogolite computer models , 1996 .

[22]  M. Barteau Organic Reactions at Well-Defined Oxide Surfaces. , 1996, Chemical reviews.

[23]  L. Kiwi-Minsker,et al.  Catalyst development for the selective methylation of catechol , 1996 .

[24]  S. Imamura,et al.  Shape-Selective Copper-Loaded Imogolite Catalyst , 1996 .

[25]  G. Magnacca,et al.  A case study: surface chemistry and surface structure of catalytic aluminas, as studied by vibrational spectroscopy of adsorbed species , 1996 .

[26]  J. Lercher,et al.  Infrared studies of the surface acidity of oxides and zeolites using adsorbed probe molecules , 1996 .

[27]  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 .

[28]  S. Ernst,et al.  Characterization of acid properties of [Al]- and [Ga]-HZSM-5 zeolites by low temperature Fourier transform infrared spectroscopy of adsorbed carbon monoxide , 1994 .

[29]  J. B. Higgins,et al.  Proceedings from the Ninth International Zeolite Conference: Montreal 1992 , 1993 .

[30]  C. Kaito,et al.  Imogolite: a possible new type of shape-selective catalyst , 1993 .

[31]  S. Traina,et al.  Adsorption of Cations on Imogolite and their Effect on Surface Charge Characteristics , 1992 .

[32]  M. C. Fuerstenau,et al.  Synthesis, chemical analyses, and solid-state NMR studies of aluminum silicate hydrosols , 1992 .

[33]  B. Morrow,et al.  Surface vibrational modes of silanol groups on silica , 1992 .

[34]  G. Spoto,et al.  Low-temperature Fourier-transform infrared investigation of the interaction of CO with nanosized ZSM5 and silicalite , 1992 .

[35]  M. Bowden,et al.  Structure and Thermal Transformations of Imogolite Studied by 29Si and 27Al High-Resolution Solid-State Nuclear Magnetic Resonance , 1989 .

[36]  P. A. Jacobs,et al.  Comparison of the Alkylation of Anisole and Phenol with Methanol on Pentasil and Ultrastable Zeolites , 1989 .

[37]  E. Oldfield,et al.  Structural studies of imogolite and allophanes by aluminum-27 and silicon-29 nuclear magnetic resonance spectroscopy , 1985 .

[38]  C. J. Clark,et al.  Cation and Anion Retention by Natural and Synthetic Allophane and Imogolite , 1984 .

[39]  A. R. Fraser,et al.  Synthetic imogolite: properties, synthesis and possible applications , 1983, Clay Minerals.

[40]  G. Ghiotti,et al.  Infrared study of low temperature adsorption. 1. Carbon monoxide on aerosil. An interpretation of the hydrated silica spectrum , 1979 .

[41]  R. Iler The Chemistry of Silica: Solubility, Polymerization, Colloid and Surface Properties and Biochemistry of Silica , 1979 .

[42]  D. Pettry,et al.  Proceedings of the International Clay Conference , 1976 .

[43]  R. Smart,et al.  Adsorption of Phosphate on Imogolite , 1974 .

[44]  L. Klemm,et al.  Alumina-catalyzed rreactions of hydroxyarenes and hydroaromatic ketones. I. Reactions of 1-naphthol with methanol , 1968 .