Structure sensitivity of mild oxidation reactions on oxide catalysts - a review

[1]  B. Grzybowska,et al.  O-xylene oxidation on the V2O5-TiO2 oxide system: I. Dependence of catalytic properties on the modification of TiO2 , 1984 .

[2]  B. Delmon,et al.  Influence of Calcination Conditions On the Phase-composition of Vanadium-phosphorus Oxide Catalysts , 1984 .

[3]  G. Centi,et al.  THE CHEMISTRY OF CATALYSTS BASED ON VANADIUM-PHOSPHORUS OXIDES. PART IV. CATALYTIC BEHAVIOR OF CATALYSTS PREPARED IN ORGANIC MEDIUM IN OXIDATION OF C4 FRACTION , 1984 .

[4]  G. Centi,et al.  THE CHEMISTRY OF CATALYSTS BASED ON VANADIUM‐PHOSPHORUS OXIDES. PART III. CATALYTIC BEHAVIOR OF DIFFERENT PHASES IN 1‐BUTENE OXIDATION TO MALEIC ANHYDRIDE , 1984 .

[5]  F. Trifiró,et al.  "The Chemistry of Catalysts Based on Vanadium-Phosphorous Oxides. Note II. The Role of the Method of Preparation" , 1984 .

[6]  J. V. Ommen,et al.  Selective gas phase oxidation of toluene by vanadium oxide/TiO2 catalysts , 1983 .

[7]  J. Ziółkowski Advanced bond-strength model of active sites on oxide catalysts , 1983 .

[8]  B. Benaichouba,et al.  Comparative study of SnSbO and SnSbFeO mixed oxide catalysts in propylene mild Oxidation: II: Mössbauer spectroscopy , 1983 .

[9]  J. Védrine,et al.  Comparative study of SnSbO and SnSbFeO mixed oxide catalysts in propene mild Oxidation: I. Physicochemical and catalytic investigation , 1983 .

[10]  J. Ziółkowski,et al.  Catalytic properties of defective brannerite-type vanadates: III. Oxidation of o-xylene on Mn1 − xφxV2 − 2xMo2xO6 , 1983 .

[11]  T. Machej,et al.  Morphological aspects in the oxidation of o-xylene on V2O5 catalysts , 1983 .

[12]  R. Tilley,et al.  Tungsten oxides as catalysts in selective oxidation , 1983 .

[13]  J. Volta,et al.  Structure-sensitive catalytic oxidation: Alcohols on graphite-supported molybdenum trioxide , 1983 .

[14]  J. Ziółkowski Catalytic properties of defective brannerite-type vanadates: II. A model of sites active in oxidation of propylene on the (201) and (202̄) planes of Mn1 − xφxV2 − 2xMo2xO6 , 1983 .

[15]  J. Janas,et al.  Catalytic properties of defective brannerite-type vanadates: I. Reactive specificity of (202̄) and (201) crystallographic planes of Mn1 − xφxV2 − 2xMo2xO6 in oxidation of propylene , 1983 .

[16]  B. Delmon,et al.  Influence of Cobalt On the Textural, Redox and Catalytic Properties of Stoichiometric Vanadium Phosphate , 1983 .

[17]  B. Delmon,et al.  Influence of P/v Ratio On the Phase-composition and Catalytic Activity of Vanadium Phosphate Based Catalysts , 1983 .

[18]  J. Ziółkowski Catalytic anisotropy of MoO3 in oxidation reactions in the light of bond-strength model of active sites , 1983 .

[19]  David J. Smith,et al.  Investigations of the tin-antimony-oxygen system by high-resolution electron microscopy , 1982 .

[20]  B. Grzybowska,et al.  Oxidation of o-xylene on tin-antimony oxides , 1982 .

[21]  J. Volta Intercalation compounds as precursors for oriented catalysts , 1982 .

[22]  Nicholas D. Spencer,et al.  Iron single crystals as ammonia synthesis catalysts: Effect of surface structure on catalyst activity , 1982 .

[23]  F. Berry Tin-Antimony Oxide Catalysts , 1982 .

[24]  J. Tatibouet,et al.  A structure-sensitive oxidation reaction: Methanol on molybdenum trioxide catalysts , 1981 .

[25]  M. Forissier,et al.  Influence of bulk and surface structure of tungsten trioxide in the oxidation of propene , 1981 .

[26]  A. Miyamoto,et al.  DETERMINATION OF THE NUMBER OF VANADIUM=OXYGEN SPECIES ON THE SURFACE OF VANADIUM OXIDE CATALYSTS. 1. UNSUPPORTED VANADIUM PENTOXIDE AND VANADIUM PENTOXIDE/TITANIUM DIOXIDE TREATED WITH AN AMMONIACAL SOLUTION , 1981 .

[27]  G. Bond,et al.  Selective oxidation of o-xylene by monolayer V2O5–TiO2 catalysts , 1981 .

[28]  Tony Pham,et al.  Dependence of selectivity on surface structure of MoO3 catalysts , 1981 .

[29]  J. Moulijn,et al.  Vanadium oxide monolayer catalysts. 3. A Raman spectroscopic and temperature-programmed reduction study of monolayer and crystal-type vanadia on various supports , 1980 .

[30]  N. Yamazoe,et al.  Catalytic properties of Fe2O3-Sb2O4 mixed oxides: I. Mechanism of propene oxidation , 1980 .

[31]  G. Keulks,et al.  The catalytic oxidation of propylene: VI. Mechanistic studies utilizing isotopic tracers , 1980 .

[32]  G. Ertl Surface Science and Catalysis—Studies on the Mechanism of Ammonia Synthesis: The P. H. Emmett Award Address , 1980 .

[33]  B. Moraweck,et al.  A new method to obtain supported oriented oxides: MoO3 graphite catalyst in propylene oxidation to acrolein , 1979 .

[34]  D. R. Pyke,et al.  An X-ray photoelectron spectroscopy study of the surface composition of tin and antimony mixed metal oxide catalysts , 1979 .

[35]  D. R. Pyke,et al.  An investigation of the relationship between the bulk and surface composition of tin and antimony mixed oxide catalysts and the oxidative dehydrogenation of 1-butene to butadiene , 1979 .

[36]  Jacques C. Vedrine,et al.  Correlations between X-ray photoelectron spectroscopy data and catalytic properties in selective oxidation on SbSnO catalysts , 1979 .

[37]  J. Camra,et al.  Segregation in vanadia-molybdena catalysts in the course of oxidation and reduction processes , 1979 .

[38]  P. Courtine,et al.  Some selectivity criteria in mild oxidation catalysis: VPO phases in butene oxidation to maleic anhydride , 1979 .

[39]  G. Somorjai,et al.  A modulated molecular beam study of the mechanism of the H2–D2 exchange reaction on Pt(111) and Pt(332) crystal surfaces , 1979 .

[40]  N. Foster,et al.  Catalysts, Kinetics and Reactor Design in Phthalic Anhydride Synthesis , 1979 .

[41]  A. Miyamoto,et al.  DETERMINATION OF THE NUMBER OF V5+=O SPECIES ON THE SURFACE OF VANADIUM OXIDE CATALYST , 1978 .

[42]  M. Ai Catalytic activity for the oxidation of methanol and the acid-base properties of metal oxides , 1978 .

[43]  E. Echigoya,et al.  Carrier Effect on the Nature of V4+ and Active Oxygen Species in Vapor-phase Oxidation of Butadiene over Supported Divanadium Pentaoxide Catalysts , 1978 .

[44]  P. Courtine,et al.  Interfacial reactions between V2O5 and TiO2 (anatase): Role of the structural properties , 1978 .

[45]  M. Ai Activities for the decomposition of formic acid and the acid-base properties of metal oxide catalysts , 1977 .

[46]  M. Ai The activity of WO3-based mixed-oxide catalysts: I. Acidic properties of WO3-based catalysts and correlation with catalytic activity , 1977 .

[47]  N. Yamazoe,et al.  Oxyhydrative scission of olefins: I. Oxidation of lower olefins , 1977 .

[48]  C. Kemball,et al.  Selective oxidation of hydrocarbons over mixed oxide catalysts , 1977 .

[49]  G. Keulks,et al.  Selective Oxidation of Propylene , 1977 .

[50]  R. Tilley,et al.  The Catalytic Activity of Several Tungsten Oxides for the Oxidation of Propene , 1976 .

[51]  B. Grzybowska,et al.  X-ray and ultraviolet-photoelectron spectra of bismuth molybdate catalysts , 1976 .

[52]  A. Sleight,et al.  Oxidation of 1-butene over bismuth molybdates and bismuth iron molybdate , 1976 .

[53]  G. Somorjai,et al.  The dehydrogenation and hydrogenolysis of cyclohexane and cyclohexene on stepped (high miller index) platinum surfaces , 1976 .

[54]  F. Trifiró,et al.  Relationship between structure and activity of antimony mixed oxides in 1-butene oxidation☆ , 1976 .

[55]  M. Ai The oxidation activity and acid-base properties of SnO2-based binary catalysts: I. The SnO2V2O5 system , 1975 .

[56]  M. Ai The oxidation activity and acid-base properties of SnO2-based binary catalysts: II. The SnO2MoO3 and SnO2P2O5 systems , 1975 .

[57]  G. D. Rieck,et al.  An outline of the crystal-structure of Bi2Mo2O9 , 1975 .

[58]  G. Somorjai,et al.  MOLECULAR BEAM STUDY OF THE MECHANISM OF CATALYZED HYDROGEN-DEUTERIUM EXCHANGE ON PLATINUM SINGLE CRYSTAL SURFACES , 1975 .

[59]  B. Halpern,et al.  Thermodesorption of oxygen from powdered transition metal oxide catalysts , 1975 .

[60]  I. Matsuura,et al.  X-ray photoelectron spectroscopy study of some bismuth molybdates and multicomponent molybdates , 1975 .

[61]  B. Grzybowska,et al.  Catalytic activity of V2O5−TiO2 systems in the oxidation of o-xylene , 1975 .

[62]  Michihiro Nakamura,et al.  The structure and the activity of vanadyl phosphate catalysts , 1974 .

[63]  M. Wolfs,et al.  The selective oxidation of 1-butene over a multicomponent molybdate catalyst. Influences of various elements on structure and activity , 1974 .

[64]  L. Margolis Present State of Ideas on the Mechanism of Catalytic Hydrocarbon Oxidation , 1974 .

[65]  G. D. Rieck,et al.  The crystal structure of Bi2(MoO4)3 , 1973 .

[66]  F. Trifiró,et al.  Preparation and activity of bismuth tungstates in oxidation and ammoxidation of olefins , 1973 .

[67]  B. Grzybowska,et al.  Mechanism of the oxidation of olefins on mixed oxide catalysts , 1973 .

[68]  R. Grasselli,et al.  Aspects of structure and activity in USboxide acrylonitrile catalysts , 1972 .

[69]  F. Trifiró The nature of the active component in a Fe2O3$z.sbnd;MoO3 catalyst *1II. Study of the variations occurring during high temperature treatment , 1971 .

[70]  R. Wragg Selective oxidation of propene over bismuth molybdate catalysts: The oxidation of propene using 18O labeled oxygen and catalyst , 1971 .

[71]  L. Fiermans,et al.  Auger electron emission spectroscopy of the V2O5(010) and V(100) surfaces , 1971 .

[72]  W. Sachtler THE MECHANISM OF THE CATALYTIC OXIDATION OF SOME ORGANIC MOLECULES , 1971 .

[73]  G. Keulks The mechanism of oxygen atom incorporation into the products of propylene oxidation over bismuth molybdate , 1970 .

[74]  R. Grasselli,et al.  Crystalline structures of USb3O10 and USbO5 in acrylonitrile catalysts , 1970 .

[75]  Y. Kera,et al.  Infrared spectroscopic study of oxygen species in vanadium pentoxide with reference to its activity in catalytic oxidation , 1969 .

[76]  R. Grasselli,et al.  Structure-catalytic efficiency relationships in USb oxide acrylonitrile synthesis catalysts , 1969 .

[77]  M. Boudart Catalysis by Supported Metals , 1969 .

[78]  K. Tarama,et al.  Spectroscopic Studies of Catalysis by Vanadium Pentoxide , 1968 .

[79]  G. Schuit,et al.  The catalytic oxidation of 1-butene over bismuth molybdate catalysts: IV. Dependence of activity on the structures of the catalysts , 1968 .

[80]  P. Céntola,et al.  The role of a metal-oxygen double bond in the activity of molybdates in oxidation reactions , 1968 .

[81]  H. Voge,et al.  Catalytic Oxidation of Olefins , 1967 .

[82]  Yutaka Morikawa,et al.  Regularity in the catalytic properties of metal oxides in hydrocarbon oxidation , 1967 .

[83]  J. Ibers,et al.  The crystal structure of cobalt molybdate CoMoO4 , 1965 .

[84]  R. Grasselli,et al.  A selectivity factor in vapor‐phase hydrocarbon oxidation catalysis , 1963 .

[85]  T. Kwan,et al.  The Catalytic Activity of Metal Oxides of the Fourth Period in the Hydrogen-Oxygen Reaction. A Commentary on a Paper by Popovskii and Boreskov , 1963 .

[86]  Allan T. Gwathmey,et al.  Influence d’atomes étrangers sur les propriétés catalytiques et la structure superficielle de certaines faces d’un monocristal de cuivre , 1954 .

[87]  P. Mars,et al.  Oxidations carried out by means of vanadium oxide catalysts , 1954 .

[88]  O. Brotzen,et al.  Vanadium Pentoxide - a Compound with Five-Coordinated Vanadium Atoms. , 1950 .