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Results: 1-25/63
Antimony oxide-modified vanadia-based catalysts - Physical characterization and catalytic properties
Authors:
Spengler, J
Anderle, F
Bosch, E
Grasselli, RK
Pillep, B
Behrens, P
Lapina, OB
Shubin, AA
Eberle, HJ
Knozinger, H
Citation: J. Spengler et al., Antimony oxide-modified vanadia-based catalysts - Physical characterization and catalytic properties, J PHYS CH B, 105(44), 2001, pp. 10772-10783
Authors:
Hadjiivanov, K
Knozinger, H
Citation: K. Hadjiivanov et H. Knozinger, Formation of Ca2+(CO)(3) complexes during low-temperature CO adsorption onCaNaY zeolite, J PHYS CH B, 105(20), 2001, pp. 4531-4534
Authors:
Kotrel, S
Lunsford, JH
Knozinger, H
Citation: S. Kotrel et al., Characterizing zeolite acidity by spectroscopic and catalytic means: A comparison, J PHYS CH B, 105(18), 2001, pp. 3917-3921
Authors:
Hadjiivanov, K
Knozinger, H
Citation: K. Hadjiivanov et H. Knozinger, FTIR study of CO and NO adsorption and coadsorption on a Cu/SiO2 catalyst:Probing the oxidation state of copper, PHYS CHEM P, 3(6), 2001, pp. 1132-1137
Authors:
Kohl, A
Linsmeier, C
Taglauer, E
Knozinger, H
Citation: A. Kohl et al., Influence of support and promotor on the catalytic activity of Rh/VOx/SiO2model catalysts, PHYS CHEM P, 3(21), 2001, pp. 4639-4643
Authors:
Hadjiivanov, K
Knozinger, H
Ivanova, E
Dimitrov, L
Citation: K. Hadjiivanov et al., FTIR study of low-temperature CO and N-15(2) adsorption on a CaNaY zeolite: formation of site-specified Ca2+(CO)(3) and Ca2+(N-15(2))(3) complexes, PHYS CHEM P, 3(12), 2001, pp. 2531-2536
Authors:
Kuba, S
Heydorn, PC
Grasselli, RK
Gates, BC
Che, M
Knozinger, H
Citation: S. Kuba et al., Redox properties of tungstated zirconia catalysts: Relevance to the activation of n-alkanes, PHYS CHEM P, 3(1), 2001, pp. 146-154
Authors:
Kuba, S
Gates, BC
Vijayanand, P
Grasselli, RK
Knozinger, H
Citation: S. Kuba et al., An active and selective alkane isomerisation catalyst: iron- and platinum-promoted tungstated zirconia (pg 321, 2001), CHEM COMMUN, (6), 2001, pp. 508-508
Authors:
Kuba, S
Gates, BC
Vijayanand, P
Grasselli, RK
Knozinger, H
Citation: S. Kuba et al., An active and selective alkane isomerisation catalyst: iron- and platinum-promoted tungstated zirconia (pg 321, 2001), CHEM COMMUN, (5), 2001, pp. 508-508
Authors:
Kuba, S
Gates, BC
Grasselli, RK
Knozinger, H
Citation: S. Kuba et al., An active and selective alkane isomerization catalyst: iron- and platinum-promoted tungstated zirconia, CHEM COMMUN, (4), 2001, pp. 321-322
Authors:
Schubert, UA
Anderle, F
Spengler, J
Zuhlke, J
Eberle, HJ
Grasselli, RK
Knozinger, H
Citation: Ua. Schubert et al., Possible effects of site isolation in antimony oxide-modified vanadia/titania catalysts for selective oxidation of o-xylene, TOP CATAL, 15(2-4), 2001, pp. 195-200
Authors:
Labich, S
Taglauer, E
Knozinger, H
Citation: S. Labich et al., Metal-support interactions on rhodium model catalysts, TOP CATAL, 14(1-4), 2001, pp. 153-161
Authors:
Mihaylov, M
Hadjiivanov, K
Knozinger, H
Citation: M. Mihaylov et al., Formation of Ni(CO)(4) during the interaction between CO and silica-supported nickel catalyst: an FTIR spectroscopic study, CATAL LETT, 76(1-2), 2001, pp. 59-63
Authors:
Hadjiivanov, K
Venkov, T
Knozinger, H
Citation: K. Hadjiivanov et al., FTIR spectroscopic study of CO adsorption on CU/SiO2: formation of new types of copper carbonyls, CATAL LETT, 75(1-2), 2001, pp. 55-59
Authors:
Su, DS
Roddatis, V
Willinger, M
Weinberg, G
Kitzelmann, E
Schlogl, R
Knozinger, H
Citation: Ds. Su et al., Tribochemical modification of the microstructure of V2O5, CATAL LETT, 74(3-4), 2001, pp. 169-175
Authors:
Mestl, G
Ilkenhans, T
Spielbauer, D
Dieterle, M
Timpe, O
Krohnert, J
Jentoft, F
Knozinger, H
Schlogl, R
Citation: G. Mestl et al., Thermally and chemically induced structural transformations of Keggin-typeheteropoly acid catalysts, APP CATAL A, 210(1-2), 2001, pp. 13-34
Authors:
Ulla, MA
Spretz, R
Lombardo, E
Daniell, W
Knozinger, H
Citation: Ma. Ulla et al., Catalytic combustion of methane on Co/MgO: characterisation of active cobalt sites, APP CATAL B, 29(3), 2001, pp. 217-229
Authors:
Mordenti, D
Grotz, P
Knozinger, H
Citation: D. Mordenti et al., Methylacetylene and tert-butylacetylene as IR-probe molecules for the characterisation of basicity, CATAL TODAY, 70(1-3), 2001, pp. 83-90
Authors:
Daniell, W
Topsoe, NY
Knozinger, H
Citation: W. Daniell et al., An FTIR study of the surface acidity of USY zeolites: Comparison of CO, CD3CN, and C5H5N probe molecules, LANGMUIR, 17(20), 2001, pp. 6233-6239
Authors:
Eibl, S
Gates, BC
Knozinger, H
Citation: S. Eibl et al., Structure of WOx/TiO2 catalysts prepared from hydrous titanium oxide hydroxide: Influence of preparation parameters, LANGMUIR, 17(1), 2001, pp. 107-115
Authors:
Cai, SH
Neyman, KM
Knozinger, H
Rosch, N
Citation: Sh. Cai et al., Density functional model cluster study of adsorption of acetylene on magnesium oxide, SURF SCI, 479(1-3), 2001, pp. 169-182
Authors:
Stichert, W
Schuth, F
Kuba, S
Knozinger, H
Citation: W. Stichert et al., Monoclinic and tetragonal high surface area sulfated zirconias in butane isomerization: CO adsorption and catalytic results, J CATALYSIS, 198(2), 2001, pp. 277-285
Authors:
Filimonova, SV
Nosov, AV
Scheithauer, M
Knozinger, H
Citation: Sv. Filimonova et al., n-Pentane isomerization over Pt/WOx/ZrO2 catalysts: A H-1 and C-13 NMR study, J CATALYSIS, 198(1), 2001, pp. 89-96
Authors:
Hadjiivanov, K
Knozinger, H
Citation: K. Hadjiivanov et H. Knozinger, Species formed after NO adsorption and NO+O-2 co-adsorption on TiO2: an FTIR spectroscopic study, PHYS CHEM P, 2(12), 2000, pp. 2803-2806
Authors:
Eibl, S
Jentoft, RE
Gates, BC
Knozinger, H
Citation: S. Eibl et al., Conversion of n-pentane and of n-butane catalyzed by platinum-containing WOx/TiO2, PHYS CHEM P, 2(11), 2000, pp. 2565-2573