Calorimetric study of the acidic character of V2O5–TiO2/SO42− catalysts used in methanol oxidation to dimethoxymethane

[1]  Jianyi Shen,et al.  Surface and catalytic properties of V2O5–TiO2/SO42− catalysts for the oxidation of methanol prepared by various methods , 2009 .

[2]  S. Bennici,et al.  Thermal Analysis and Calorimetric Methods , 2009 .

[3]  Jianyi Shen,et al.  The influence of the preparation method on the structural, acidic and redox properties of V2O5-TiO2/SO42− catalysts , 2009 .

[4]  J. Hargreaves,et al.  Metal Oxide Catalysis , 2008 .

[5]  Jianyi Shen,et al.  Structural, acidic and redox properties of V2O5-TiO2-SO42− catalysts , 2008 .

[6]  J. Clacens,et al.  Calorimetric and FTIR study of the acid properties of sulfated titanias. , 2006, Journal of Physical Chemistry B.

[7]  H. Zou,et al.  Surface acidity of supported vanadia catalysts , 2003 .

[8]  A. Auroux,et al.  Calorimetric measurements of the acidity of supported vanadium oxides prepared by ALE and impregnation , 2001 .

[9]  A. Auroux Acidity characterization by microcalorimetry and relationship with reactivity , 1997 .

[10]  J. Fierro,et al.  Selective Oxidation of Ethanol to Acetaldehyde on V2O5/TiO2/SiO2Catalysts☆ , 1997 .

[11]  A. Auroux,et al.  Microcalorimetric Study of the Acidic Character of Modified Metal Oxide Surfaces. Influence of the Loading Amount on Alumina, Magnesia, and Silica , 1996 .

[12]  K. Tanabe Niobic acid as an unusual acidic solid material , 1987 .

[13]  E. Tronconi,et al.  Oxidation of methanol to methyl formate over V-Ti oxide catalysts , 1987 .

[14]  F. Roozeboom,et al.  Vanadium oxide monolayer catalysts: The vapor-phase oxidation of methanol , 1981 .