ebook img

Journal of Molecular Catalysis A: Chemical 1996: Vol 112 Index PDF

11 Pages·1996·2.1 MB·English
by  
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Journal of Molecular Catalysis A: Chemical 1996: Vol 112 Index

JOURNAL OF MOLECULAR CATALYSIS 1IuNvO DN7 A: CHEMICAL E‘VeIT R Journal of Molecular Catalysis A: Chemical 112 (1996) 483-485 Author Index Abe, T., Taguchi, F., Yoshida, T., Tokita, S., Schnurpfeil, G., Chen, S.-M. Wohrle, D. and Kaneko, M. The Catalytic autoxidation of sulfite by supported water-solu- Electrocatalytic CO, reduction by cobalt octabutoxyphthalo- ble iron porphyrins (112) 277 cyanine coated on graphite electrode (112) 55 Cheong, M., Bae, S.-h. and Lee, K.B. Aboulayt, A., see Ziolek, M. (112) 125 Phosphorus pentoxide promotion of iridium-catalysed rear- Adamski, A., see Sojka, Z. (112) 469 rangement of methyl formate in the absence of initial CO Alper, H., see El Ali, B. (112) 195 pressure (112) 389 Ansari, A., Peral, J., Doménech, X., Rodriguez-Clemente, R. and Chiavetto, L.B., see Bolzacchini, E. (112) 347 Casado, J. Choplin, A., see Leyrit, P. (112) 395 Oxidation of S(IV) to S(VI) under Fenton, photo-Fenton and Choudary, B.M. and Reddy, P.N. y-FeOOH photocatalized conditions (112) 269 A new alkyl peroxovanadium catalyst for selective oxidation Augustine, R.L. and Tanielyan, S.K. of nitriles to a-oxo nitriles: A functional mimic of Cyt-P.450 Enantioselective heterogeneous catalysis. 2. Examination of (112) 385 the formation of the individual (R) and (S) lactates in the Deganello, G., see Duca, D. (112) 413 cinchonidine modified platinum hydrogenation of pyruvate Di Serio, M., Iengo, P., Gobetto, R., Bruni, S. and Santacesaria, (112) 93 E. Babushkin, D.E., see Sobolev, A.P. (112) 253 Ethoxylation of fatty alcohols promoted by an aluminum Bae, S.-h., see Cheong, M. (112) 389 alkoxide sulphate catalyst (112) 235 Bal’zhinimaev, B.S., see Pinaeva, L.G. (112) 115 Domen, K., see Maruya, K.-i. (112) 143 Bartok, M., see Martinek, T. (112) 85 Doménech, X., see Ansari, A. (112) 269 Basset, J.-M., see Lesage, P. (112) 303 Duca, D. and Deganello, G. Basset, J.M., see Lesage, P. (112) 431 Analysis by size exclusion chromatography (SEC) of catalytic Bianchi, M., see Rosi, L. (112) 367 materials: The fractal properties and the pore size distribution Bielafski, A., see Dziembaj, R. (112) 423 of pumice (112) 413 Bini, A., see Rosi, L. (112) 367 Durand, R., see Moreau, C. (112) 133 Blaser, H.-U., see Studer, M. (112) 437 Dziembaj, R., Matecka, A., Piwowarska, Z. and Bielafiski, A. Bolzacchini, E., Chiavetto, L.B., Canevali, C., Morazzoni, F., XPS study of polyaniline supported dodecatungstosilicic acid Orlandi, M. and Rindone, B. catalyst (112) 423 Oxidation of propenoidic phenols catalysed by N,N’-ethylen- El Ali, B., Vasapollo, G. and Alper, H. ebis(salicylideneiminato)cobalt(II) [Cosalen]: reactivity and A novel Rh-PCy,-CO-HCOOH catalytic system for the spectroscopic studies (112) 347 regioselective conversion of alkenes to aldehydes (112) 195 Borst, L., see Wehman, P. (112) 23 Flodstrém, A.S., see Lu, H. (112) 447 Bréhéret, A., see Pinel, C. (112) L157 Flodstrém, A.S., see Lu, H. (112) 459 Bruni, S., see Di Serio, M. (112) 235 Fort, Y., Silvestri, A. and Graindorge, H. Budneva, A.A., see Pinaeva, L.G. (112) 115 Unprecedented effects of solvent and temperature of prepara- Camus, A., Garozzo, M.S., Marsich, N. and Mari, M. tion on hydrosilylating properties of alumina-supported plat- Oxidative coupling of 2,6-dimethylphenol to polyphenylene inum catalyst (112) 311 ether catalyzed by a dinuclear Cu(I])dihydroxo-diiodo com- Fraile, J.M., see Cativiela, C. (112) 259 plex of 2,2’-dipyridylamine (112) 353 Francis, J.W. and Henry, P.M. Candy, J.-P., see Lesage, P. (112) 303 Palladium(II)-catalyzed exchange and isomerization reactions. Candy, J.P., see Lesage, P. (112) 431 XVI. The kinetics and stereochemistry of the oxidation and Canevali, C., see Bolzacchini, E. (112) 347 isomerization of hexafluoro allylic alcohols in aqueous solu- Casado, J., see Ansari, A. (112) 269 tion catalyzed by PdCl,(pyridine)~ (112) 317 Cativiela, C., Fraile, J.M., Garcia, J.I. and Mayoral, J.A. Frediani, P., see Rosi, L. (112) 367 A new titanium-silica catalyst for the epoxidation of alkenes Freidanck, F., see Kaminsky, W. (112) 37 (112) 259 Ganzerla, R., see Storaro, L. (112) 43 Che, M., see Sojka, Z. (112) 469 Garcia, J.1., see Cativiela, C. (112) 259 484 Author Index Garozzo, M.S., see Camus, A. (112) 353 Likholobov, V.A., see Moroz, B.L. (112) 217 Gendreau-Diaz, N., see Pinel, C. (112) L157 Liu, C., Ye, X., Zhan, R. and Wu, Y. Geneste, P., see Moreau, C. (112) 133 Phenol hydroxylation by iron(I)phenanthroline: The reaction Gobetto, R., see Di Serio, M. (112) 235 mechanism (112) 15 Graindorge, H., see Fort, Y. (112) 311 Liu, C.-Y., see Hung, W.-H. (112) 1 Hada, M., see Zhanpeisov, N.U. (112) 63 Liu, H., see Yu, W. (112) 105 Haraoka, T., see Maruya, K.-i. (112) 143 Lovas, A., see Martinek, T. (112) 85 Henry, P.M., see Francis, J.W. (112) 317 Lu, H., Pradier, C.-M. and Flodstrém, A.S. Hirigoyen, C., see Lesage, P. (112) 303 Catalytic reduction of nitric oxide on copper. Part I (112) 447 Hirigoyen, C., see Lesage, P. (112) 431 Lu, H., Pradier, C.-M. and Flodstrém, A.S. Ho, Y.-S., Wang, C.-B. and Yeh, C.-T. Catalytic reduction of nitric oxide over copper. Part II: Influ- Calorimetric study on interaction of dioxygen with alumina ence of sulfur dioxide (112) 459 supported palladium (112) 287 Matecka, A., see Dziembaj, R. (112) 423 Hu, C.-C., see Hung, W.-H. (112) 1 Mari, M., see Camus, A. (112) 353 Huang, L. Marsich, N., see Camus, A. (112) 353 IR studies on the preservation of RhCo, clusters on the Martinek, T., Molnar, A., Katona, T., Bart6k, M. and Lovas, A. surface of SiO, (112) 69 Amorphous alloy catalysis IX. Isomerization and hydrogena- Humblot, F., see Lesage, P. (112) 303 tion of allyl alcohol over an amorphous copper—zirconium Humblot, F., see Lesage, P. (112) 431 alloy (112) 85 Hung, W.-H., Hu, C.-C. and Liu, C.-Y. Maruya, K.-i., Takasawa, A., Haraoka, T., Domen, K. and Onishi, Hydrolysis catalyzed with a resin containing histidine groups ¥. (112) 1 Role of methoxide species in isobutene formation from CO Hwang, C.-P. and Yeh, C.-T. and H, over oxide catalystsMethoxide species in isobutene Platinum—oxide species formed by oxidation of platinum crys- formation (112) 143 tallites supported on alumina (112) 295 Mayoral, J.A., see Cativiela, C. (112) 259 Tengo, P., see Di Serio, M. (112) 235 McGill, C., see Leyrit, P. (112) 395 Ishida, H. and Seri, K.-i. Miura, M., see Satoh, T. (112) 211 Catalytic activity of lanthanoide(III) ions for dehydration of Molnar, A., see Martinek, T. (112) 85 D-glucose to 5-(hydroxymethy])furfural (112) L163 Morazzoni, F., see Bolzacchini, E. (112) 347 Jaroszewski, M., see Szymafiska-Buzar, T. (112) 203 Moreau, C., Durand, R., Geneste, P. and Mseddi, S. Kamer, P.C.J., see Wehman, P. (112) 23 Determination of the acid strength of solid catalysts in water Kaminsky, W., Schauwienold, A.-M. and Freidanck, F. by means of a kinetic tracer (112) 133 Photoinduced rac/meso interconversions of bridged bis(inde- Moroz, B.L., Moudrakovski, I.L. and Likholobov, V.A. nyl) zirconium dichlorides (112) 37 Heterogenized catalysts for olefin hydroformylation containing Kaneko, M., see Abe, T. (112) 55 cobalt and palladium—cobalt complexes anchored on phosphi- Katona, T., see Martinek, T. (112) 85 nated SiO,: a °C solid-state NMR study (112) 217 Kilner, M. and Winter, N.J. Moudrakovski, I.L., see Moroz, B.L. (112) 217 Studies of the rhodium iodide catalysed hydrocarboxylation of Mseddi, S., see Moreau, C. (112) 133 ethene (112) 327 Nakatsuji, H., see Zhanpeisov, N.U. (112) 63 Korchowiec, J., see Nalewajski, R.F. (112) 167 Nalewajski, R.F. and Korchowiec, J. Kujawa, J., see Ziolek, M. (112) 125 Charge response study of the toluene-[V,0;] chemisorption Lavalley, J.C., see Ziolek, M. (112) 125 clusters: Two reactant approach (112) 167 Leconte, M., see Lesage, P. (112) 303 Nomura, M., see Satoh, T. (112) 211 Lee, K.B., see Cheong, M. (112) 389 Onishi, T., see Maruya, K.-i. (112) 143 Lemaire, M., see Pinel, C. (112) L157 Orlandi, M., see Bolzacchini, E. (112) 347 Lenarda, M., see Storaro, L. (112) 43 Paukshtis, E.A., see Pinaeva, L.G. (112) 115 Lesage, P., Candy, J.-P., Hirigoyen, C., Humblot, F., Leconte, M. Peral, J., see Ansari, A. (112) 269 and Basset, J.-M. Pinaeva, L.G., Suknev, A.P., Budneva, A.A., Paukshtis, E.A. and An example of the valorization of terpenes: The selective Bal’zhinimaev, B.S. isomerization of 3-carene to 2-carene in the presence of silica On the role of oxygen in the reaction of NO reduction by NH, supported nickel catalysts modified by tetrabutyl tin (112) 303 over monolayer V,0;—TiO, catalyst (112) 115 Lesage, P., Candy, J.P., Hirigoyen, C., Humblot, F. and Basset, Pinel, C., Gendreau-Diaz, N., Bréhéret, A. and Lemaire, M. J.M. Asymmetric hydrogenation of a-keto ester with diamine-com- Selective dehydrogenation of dipentene ( R-(+ )-limonene) into plexed metal (112) L157 paracymene on silica supported palladium assisted by a-olefins Piwowarska, Z., see Dziembaj, R. (112) 423 as hydrogen acceptor (112) 431 Pradier, C.-M., see Lu, H. (112) 447 Leyrit, P., McGill, C., Quignard, F. and Choplin, A. Pradier, C.-M., see Lu, H. (112) 459 A novel heterogeneous molecular catalyst for the Meerwein-— Quignard, F., see Leyrit, P. (112) 395 Ponndorf—Verley and Oppenauer reactions (112) 395 Reddy, P.N., see Choudary, B.M. (112) 385 Li, Z., see Zhang, J.Z. (112) 9 Righini, G., see Storaro, L. (112) 43 Author Index Rindone, B., see Bolzacchini, E. (112) 347 Taguchi, F., see Abe, T. (112) 55 Rodriguez-Clemente, R., see Ansari, A. (112) 269 Takasawa, A., see Maruya, K.-i. (112) 143 Roessner, F. and Roland, U. Talsi, E.P., see Sobolev, A.P. (112) 253 Hydrogen spillover in bifunctional catalysis (112) 401 Tanielyan, S.K., see Augustine, R.L. (112) 93 Roland, U., see Roessner, F. (112) 401 Tokita, S., see Abe, T. (112) 55 Rosi, L., Bini, A., Frediani, P., Bianchi, M. and Salvini, A. Van Leeuwen, P.W.N.M., see Wehman, P. (112) 23 Functionalized phosphine substituted cobalt carbonyls. Synthe- Vasapollo, G., see El Ali, B. (112) 195 sis, characterization and catalytic activity in the hydroformyla- Wang, C.-B., see Ho, Y.-S. (112) 287 tion of olefins (112) 367 Wang, C.Y., see Zhang, J.Z. (112) 9 Salvini, A., see Rosi, L. (112) 367 Wang, H., see Zhang, J.Z. (112) 9 Santacesaria, E., see Di Serio, M. (112) 235 Wang, Y., see Yu, W. (112) 105 Satoh, T., Miura, M. and Nomura, M. Wehman, P., Borst, L., Kamer, P.CJ. and Van Leeuwen, Palladium-catalyzed arylation of secondary allylic alcohols in P.W.N.M. the presence of copper(II)triflate and triphenylphosphine: Se- Influence of an aromatic carboxylic acid as cocatalyst in the lective synthesis of B-aryl-a,B-unsaturated ketones (112) 211 palladium-catalysed reductive carbonylation of aromatic nitro Saur, O., see Ziolek, M. (112) 125 compounds (112) 23 Schauwienold, A.-M., see Kaminsky, W. (112) 37 Wilgocki, M., see Szymafiska-Buzar, T. (112) 203 Schnurpfeil, G., see Abe, T. (112) 55 Winter, N.J., see Kilner, M. (112) 327 Seri, K.-i., see Ishida, H. (112) L163 Wohrle, D., see Abe, T. (112) 55 Shubin, A.A., see Sobolev, A.P. (112) 253 Wu, Y., see Liu, C. (112) 15 Silvestri, A., see Fort, Y. (112) 311 Ye, X., see Liu, C. (112) 15 Sobolev, A.P., Babushkin, D.E., Shubin, A.A. and Talsi, E.P. Yeh, C.-T., see Ho, Y.-S. (112) 287 EPR and 'H NMR spectroscopic characterization of the ferric Yeh, C.-T., see Hwang, C.-P. (112) 295 species formed in the iron picolinate /(pyridine /acetic Yoshida, T., see Abe, T. (112) 55 acid)/HOOH catalytic system for the direct ketonization of Yu, W., Wang, Y., Liu, H. and Zheng, W. methylenic carbons (112) 253 Preparation and characterization of polymer-protected Pt/Co Sojka, Z., Adamski, A. and Che, M. bimetallic colloids and their catalytic properties in the selec- Use of phosphines as versatile molecular probes for studying tive hydrogenation of cinnamaldehyde (112) 105 the coordination states of molybdenum ions in Mo/SiO, Zanoni, R., see Storaro, L. (112) 43 catalysts by EPR (112) 469 Zhan, R., see Liu, C. (112) 15 Storaro, L., Ganzerla, R., Lenarda, M., Zanoni, R. and Righini, G. Zhang, J.Z., Li, Z., Wang, H. and Wang, C.Y. Highly selective vapor phase propene hydroformylation cat- Homogeneous catalytic synthesis of formic acid (salts) by alyzed by Rh/B and Rh—-Co/B systems on silica (112) 43 hydrogenation of CO, with H, in the presence of ruthenium Studer, M. and Blaser, H.-U. species (112) 9 Influence of catalyst type, solvent, acid and base on the Zhanpeisov, N.U., Nakatsuji, H. and Hada, M. selectivity and rate in the catalytic debenzylation of 4-chloro- Cluster quantum-chemical MINDO/3 study of the nature of N,N-dibenzyl aniline with Pd/C and H, (112) 437 hydroxyl groups on a calcium oxide surface (112) 63 Suknev, A.P., see Pinaeva, L.G. (112) 115 Zheng, W., see Yu, W. (112) 105 Szymanska-Buzar, T., Jaroszewski, M., Wilgocki, M. and Ziolek, M., Kujawa, J., Saur, O., Aboulayt, A. and Lavalley, J.C. Zidtkowski, J.J. Influence of sulfur dioxide adsorption on the surface proper- Reactivity of bis(alkene)tetracarbonyl complexes of tungsten: ties of metal oxides (112) 125 evidence for alkene to t-allyl hydride rearrangement (112) Zidtkowski, J.J., see Szymafska-Buzar, T. (112) 203 203 JOURNAL OF MOLECULAR CATALYSIS yIYOVN1 IAN:O ZC HEMICAL Journal of Molecular Catalysis A: Chemical 112 (1996) 487-492 Subject Index a, B-unsaturated ketones Arylation Arylation; Allylic alcohols; Palladium; Copper triflate (Satoh, T. Allylic alcohols; a, 8-unsaturated ketones; Palladium; Copper tri- (112) 211) flate (Satoh, T. (112) 211) Acetals Asymmetric hydrogenation Zeolites; Resins; Acidity; Hydrolysis (Moreau, C. (112) 133) Diamine ligands; Cyclodextrin (Pinel, C. (112) L157) Acetic acid Benzyl cyanides Methy] formate; Phosphorus pentoxide; Iridium catalyst (Cheong, Alkyl peroxovanadium complex; Catalytic oxidation; Aroyl M. (112) 389) cyanides; Peroxo benzyl cyanides (Choudary, B.M. (112) 385) Acid—base properties Bifunctional catalysis SO, adsorption; Metal oxides; IR spectroscopy; Catalytic activity Reaction mechanism; Hydrogen spillover; Cyclohexane conver- (Ziolek, M. (112) 125) sion (Roessner, F. (112) 401) Acidic cocatalysts Bis(alkene) complexes Nitro compounds; Palladium catalyst; Nitrogen ligands; Reductive t-Allyl hydride intermediate; Isomerization; Metathesis; Tungsten carbonylation (Wehman, P. (112) 23) (Szymafiska-Buzar, T. (112) 203) Acidity Boron Zeolites; Resins; Hydrolysis; Acetals (Moreau, C. (112) 133) Silica; Propene; Hydroformylation; Rhodium; Cobalt (Storaro, L. Alcohol oxidation (112) 43) Hydrogen transfer reduction; Silica supported zirconium catalysts; Calcium oxide Ketone reduction (Leyrit, P. (112) 395) Water; Hydroxyl group stretching frequencies; MINDO/3 study Aldehydes (Zhanpeisov, N.U. (112) 63) Rhodium: Carbon monoxide; Formic acid; Regioselectivity; Calorimetry Alkene conversion (El Ali, B. (112) 195) Heat of adsorption; Heat of oxidation; Enthalpy of PdO formation; Alkene conversion Phenomena of oxidation (Ho, Y.-S. (112) 287) Rhodium: Carbon monoxide; Formic acid; Regioselectivity; Alde- Carbon dioxide hydrogenation hydes (El Ali, B. (112) 195) Formic acid; Ruthenium chloride; Ruthenium complexes (Zhang, Alkyl peroxovanadium complex J.Z. (112) 9) Catalytic oxidation: Benzyl cyanides; Aroyl cyanides; Peroxo Carbon monoxide benzyl! cyanides (Choudary, B.M. (112) 385) Rhodium; Formic acid; Regioselectivity; Alkene conversion; Allyl alcohol Aldehydes (El Ali, B. (112) 195) Isomerization; Hydrogenation; Amorphous alloy; Copper— Carbony| zirconium; Copper; Propanal; |-propanol; Selectivity (Martinek, Hydroformylation; Cobalt; Functionalized phosphine; Catalysis; T. (112) 85) Homogeneous; Olefin (Rosi, L. (112) 367) m-Allyl hydride intermediate Carene isomerization Isomerization: Metathesis: Tungsten: Bis(alkene) complexes (Szy- Ni/SiO, catalyst; Tetra-n-butyl tin modified catalyst; Surface mafiska-Buzar, T. (112) 203) organometallic chemistry (Lesage, P. (112) 303) Allylic alcohols Catalysis Arylation: a@,B-unsaturated ketones: Palladium: Copper triflate Hydroformylation; Cobalt: Carbonyl; Functionalized phosphine; (Satoh, T. (112) 211) Homogeneous; Olefin (Rosi, L. (112) 367) Aluminium catalysts Catalyst Ethoxylation: Fatty alcohols (Di Serio. M. (112) 235) Lanthanoide: Glucose: Furfural (Ishida, H. (112) L163) Amorphous alloy Catalyst support characterization Isomerization; Hydrogenation; Ally! alcohol: Copper—zirconium: Size exclusion chromatography; Pumice; Metal supported catalyst; Copper: Propanal; |-propanol: Selectivity (Martinek, T. (112) 85) Surface (Duca, D. (112) 413) Anchored complexes Catalytic activity 'SC NMR: Cobalt: Ethylene: Hydroformylation: Mechanism: Pal- Acid—base properties; SO, adsorption; Metal oxides; IR spec- iadium: Phosphinated silica (Moroz, B.L. (112) 217) troscopy (Ziolek, M. (112) 125) Aroyl cyanides Catalytic debenzylation Alkyl peroxovanadium complex: Catalytic oxidation: Benzyl Pd/C: Chemoselectivity; Kinetic analysis; Influence of reaction cyanides: Peroxo benzyl! cyanides (Choudary, B.M. (112) 385) parameters (Studer, M. (112) 437) 488 Subject Index Catalytic mechanism Cyclodextrin Electrocatalytic CO, reduction; Cobalt octabutoxyphthalocyanine; Asymmetric hydrogenation; Diamine ligands (Pinel, C. (112) Potential-step chronoamperospectroscopy (PSCAS) (Abe, T. (112) L157) 55) Cyclohexane Catalytic oxidation Ferric peroxo complexes; EPR; NMR; Oxidation (Sobolev, A.P. Alkyl peroxovanadium complex; Benzyl cyanides; Aroyl cyanides; (112) 253) Peroxo benzyl cyanides (Choudary, B.M. (112) 385) Cyclohexane conversion Chemoselectivity Bifunctional catalysis; Reaction mechanism; Hydrogen spillover Catalytic debenzylation; Pd/C; Kinetic analysis; Influence of (Roessner, F. (112) 401) reaction parameters (Studer, M. (112) 437) Dehydrogenation Cinchona alkaloid modifiers R-(+)-limonene; Paracymene; Pd/SiO,; Hydrogen transfer reac- Enantioselective hydrogenation; Pyruvate hydrogenation (Augus- tion (Lesage, P. (112) 431) tine, R.L. (112) 93) Diamine ligands Cinnamaldehyde Asymmetric hydrogenation; Cyclodextrin (Pinel, C. (112) L157) Pt /Co bimetallic colloid; Selective hydrogenation (Yu, W. (112) 2,6-dimethylphenol oxidation 105) Dinuclear Cu(IDdihydroxo complexes; Homogeneous catalysis; ‘SC NMR Polyphenylene ether (Camus, A. (112) 353) Anchored complexes; Cobalt; Ethylene; Hydroformylation; Mech- Dinuclear Cu(ID)dihydroxo complexes anism; Palladium; Phosphinated silica (Moroz, B.L. (112) 217) 2,6-dimethylphenol oxidation; Homogeneous catalysis; Cobalt Polyphenylene ether (Camus, A. (112) 353) Silica; Propene; Hydroformylation; Rhodium; Boron (Storaro, L. Electrocatalytic CO, reduction (112) 43) Cobalt octabutoxyphthalocyanine; Catalytic mechanism; Anchored complexes; ‘°C NMR; Ethylene; Hydroformylation; Potential-step chronoamperospectroscopy (PSCAS) (Abe, T. (112) Mechanism; Palladium; Phosphinated silica (Moroz, B.L. (112) 55) 217) Enantioselective hydrogenation Hydroformylation; Carbonyl; Functionalized phosphine; Catalysis; Pyruvate hydrogenation; Cinchona alkaloid modifiers (Augustine, Homogeneous; Olefin (Rosi, L. (112) 367) R.L. (112) 93) Cobalt octabutoxyphthalocyanine Enthalpy of PdO formation Electrocatalytic CO, reduction; Catalytic mechanism; Potential- Calorimetry; Heat of adsorption; Heat of oxidation; Phenomena of step chronoamperospectroscopy (PSCAS) (Abe, T. (112) 55) oxidation (Ho, Y.-S. (112) 287) CO hydrogenation Environment Oxide catalysts; /sobutene formation; "°C tracer study (Maruya, NO reduction; Copper; Hydrocarbon oxidation; Surface character- K.-i. (112) 143) ization (Lu, H. (112) 447) Coordination state Nitric oxide reduction; Sulfur dioxide; Copper; Isobutene; X-ray EPR; SiO,; Mo** ions; Phosphines; Molecular probes (Sojka, Z. photoelectron spectroscopy (Lu, H. (112) 459) (112) 469) Epoxidation Copper Titanium silica; TBHP; Non-activated alkenes (Cativiela, C. (112) Isomerization; Hydrogenation; Allyl alcohol; Amorphous alloy; 259) Copper—zirconium; Propanal; |-propanol; Selectivity (Martinek, EPR T. (112) 85) Ferric peroxo complexes; NMR; Oxidation; Cyclohexane (Sobo- NO reduction; Environment; Hydrocarbon oxidation; Surface lev, A.P. (112) 253) characterization (Lu, H. (112) 447) Coordination state; SiO,; Mo°* ions; Phosphines; Molecular Nitric oxide reduction; Sulfur dioxide; Isobutene; X-ray photo- probes (Sojka, Z. (112) 469) electron spectroscopy; Environment (Lu, H. (112) 459) EPR study Copper triflate Cosalen; Phenol; Oxidation (Bolzacchini, E. (112) 347) Arylation; Allylic alcohols; @,B-unsaturated ketones; Palladium Ethene hydrocarboxylation (Satoh, T. (112) 211) Propanoic acid; Rhodium iodide (Kilner, M. (112) 327) Copper—zirconium Ethoxylation Isomerization; Hydrogenation; Allyl alcohol; Amorphous alloy; Fatty alcohols; Aluminium catalysts (Di Serio, M. (112) 235) Copper; Propanal; 1-propanol; Selectivity (Martinek, T. (112) 85) Ethylene Cosalen Anchored complexes; '5C NMR; Cobalt; Hydroformylation; Phenol; Oxidation; EPR study (Bolzacchini, E. (112) 347) Mechanism; Palladium; Phosphinated silica (Moroz, B.L. (112) "°C tracer study 217) CO hydrogenation; Oxide catalysts; /sobutene formation (Maruya, Fatty alcohols K.-i. (112) 143) Ethoxylation; Aluminium catalysts (Di Serio, M. (112) 235) Cumene cracking Fenton reactions Heteropolyacid; Keggin unit; Polymer; Polyaniline; XPS Oxidation; Sulphur; Photocatalysis; Iron; Peroxide (Ansari, A. (Dziembaj, R. (112) 423) (112) 269) Subject Index Ferric peroxo complexes Hydrosilylating properties EPR; NMR; Oxidation; Cyclohexane (Sobolev, A.P. (112) 253) Platinum /alumina; Solvent effects; Temperature effects (Fort, Y. Formic acid (112) 311) Carbon dioxide hydrogenation; Ruthenium chloride; Ruthenium Hydroxyl group stretching frequencies complexes (Zhang, J.Z. (112) 9) Calcium oxide; Water; MINDO/ 3 study (Zhanpeisov, N.U. (112) Rhodium; Carbon monoxide; Regioselectivity; Alkene conversion; 63) Aldehydes (El Ali, B. (112) 195) Influence of reaction parameters Functionalized phosphine Catalytic debenzylation; Pd/C; Chemoselectivity; Kinetic analy- Hydroformylation; Cobalt; Carbonyl; Catalysis; Homogeneous; sis (Studer, M. (112) 437) Olefin (Rosi, L. (112) 367) Iridium catalyst Furfural Methyl formate; Acetic acid; Phosphorus pentoxide (Cheong, M. Lanthanoide; Catalyst; Glucose (Ishida, H. (112) L163) (112) 389) Glucose Iron Lanthanoide; Catalyst; Furfural (Ishida, H. (112) L163) Oxidation; Sulphur; Fenton reactions; Photocatalysis; Peroxide Graphic plot (Ansari, A. (112) 269) TPR; TPD; Platinum oxide (Hwang, C.-P. (112) 295) Iron(II)-1,10-phenanthroline Heat of adsorption Phenol hydroxylation; Radical substitution (Liu, C. (112) 15) Calorimetry; Heat of oxidation; Enthalpy of PdO formation; Phe- IR spectroscopy nomena of oxidation (Ho, Y.-S. (112) 287) SCR reaction; Vanadia monolayer; Transient response technique Heat of oxidation (Pinaeva, L.G. (112) 115) Calorimetry; Heat of adsorption; Enthalpy of PdO formation; Acid—base properties; SO, adsorption; Metal oxides; Catalytic Phenomena of oxidation (Ho, Y.-S. (112) 287) activity (Ziolek, M. (112) 125) Heteropolyacid Isobutene Keggin unit; Polymer; Polyaniline; Cumene cracking; XPS Nitric oxide reduction; Sulfur dioxide; Copper; X-ray photoelec- (Dziembaj, R. (112) 423) tron spectroscopy; Environment (Lu, H. (112) 459) Histidine-containing resin Jsobutene formation Hydrolysis; p-Nitropheny! acetate (Hung, W.-H. (112) 1) CO hydrogenation; Oxide catalysts; °C tracer study (Maruya, Homogeneous K.-i. (112) 143) Hydroformylation; Cobalt; Carbonyl; Functionalized phosphine; Isomerization Catalysis; Olefin (Rosi, L. (112) 367) Hydrogenation; Allyl alcohol; Amorphous alloy; Copper— Homogeneous catalysis zirconium; Copper; Propanal; 1-propanol; Selectivity (Martinek, 2,6-dimethylphenol oxidation; Dinuclear Cu(IDdihydroxo com- T. (112) 85) plexes; Polyphenylene ether (Camus, A. (112) 353) m-Allyl hydride intermediate; Metathesis; Tungsten; Bis(alkene) Hydrocarbon oxidation complexes (Szymafiska-Buzar, T. (112) 203) NO reduction; Copper; Environment; Surface characterization (Lu, Wacker; Oxidation; Stereochemistry; Modified catalyst; Palla- H. (112) 447) dium(ID (Francis, J.W. (112) 317) Hydroformylation Keggin unit Silica; Propene; Rhodium; Cobalt; Boron (Storaro, L. (112) 43) Heteropolyacid; Polymer; Polyaniline; Cumene cracking; XPS Anchored complexes; '°C NMR; Cobalt; Ethylene; Mechanism; (Dziembaj, R. (112) 423) Pailadium; Phosphinated silica (Moroz, B.L. (112) 217) Ketone reduction Cobalt; Carbonyl; Functionalized phosphine; Catalysis; Homoge- Hydrogen transfer reduction; Silica supported zirconium catalysts; neous; Olefin (Rosi, L. (112) 367) Alcohol oxidation (Leyrit, P. (112) 395) Hydrogenation Kinetic analysis Isomerization; Allyl alcohol; Amorphous alloy; Copper— Catalytic debenzylation; Pd/C; Chemoselectivity; Influence of zirconium; Copper; Propanal; !-propanol; Selectivity (Martinek, reaction parameters (Studer, M. (112) 437) T. (112) 85) Lanthanoide Hydrogen spillover Catalyst; Glucose; Furfural (Ishida, H. (112) L163) Bifunctional catalysis; Reaction mechanism; Cyclohexane conver- Mechanism sion (Roessner, F. (112) 401) Anchored complexes; '5C NMR; Cobalt; Ethylene; Hydroformyla- Hydrogen transfer reaction tion; Palladium; Phosphinated silica (Moroz, B.L. (112) 217) R-(+ )-limonene; Dehydrogenation; Paracymene; Pd/SiO, Metallocenes (Lesage, P. (112) 431) Stability; Photoconversion; Olefin polymerization (Kaminsky, W. Hydrogen transfer reduction (112) 37) Silica supported zirconium catalysts; Alcohol oxidation; Ketone Metal oxides reduction (Leyrit, P. (112) 395) Acid—base properties; SO, adsorption; IR spectroscopy; Catalytic Hydrolysis activity (Ziolek, M. (112) 125) Histidine-containing resin; p-Nitrophenyl acetate (Hung, Metal supported catalyst (112) 1) Size exclusion chromatography; Catalyst support characterization; Zeolites; Resins; Acidity; Acetals (Moreau, C. (112) 133) Pumice; Surface (Duca, D. (112) 413) 490 Subject Index Metathesis Palladium catalyst m-Allyl hydride intermediate; Isomerization; Tungsten; Bis(al- Acidic cocatalysts; Nitro compounds; Nitrogen ligands; Reductive kene) complexes (Szymafska-Buzar, T. (112) 203) carbonylation (Wehman, P. (112) 23) Methyl] formate Paracymene Acetic acid; Phosphorus pentoxide; Iridium catalyst (Cheong, M. R-(+ )-limonene; Dehydrogenation; Pd/SiO,; Hydrogen transfer (112) 389) reaction (Lesage, P. (112) 431) MINDO/ 3 study Pd/C Calcium oxide; Water; Hydroxyl group stretching frequencies Catalytic debenzylation; Chemoselectivity; Kinetic analysis; Influ- (Zhanpeisov, N.U. (112) 63) ence of reaction parameters (Studer, M. (112) 437) Modified catalyst Pd/SiO, Wacker; Isomerization; Oxidation; Stereochemistry; Palladium(II) R-(+ )-limonene; Dehydrogenation; Paracymene; Hydrogen trans- (Francis, J.W. (112) 317) fer reaction (Lesage, P. (112) 431) Mo** ions Peroxide EPR; Coordination state; SiO,; Phosphines; Molecular probes Oxidation; Sulphur; Fenton reactions; Photocatalysis; Iron (Ansari, (Sojka, Z. (112) 469) A. (112) 269) Molecular probes Peroxo benzyl cyanides EPR; Coordination state; SiO,; Mo** ions; Phosphines (Sojka, Z. Alkyl peroxovanadium complex; Catalytic oxidation; Benzyl (112) 469) cyanides; Aroyl cyanides (Choudary, B.M. (112) 385) Ni/SiO, catalyst Phenol Carene isomerization; Tetra-n-butyl tin modified catalyst; Surface Cosalen; Oxidation; EPR study (Bolzacchini, E. (112) 347) organometallic chemistry (Lesage, P. (112) 303) Phenol hydroxylation Nitric oxide reduction Iron(II)-1,10-phenanthroline; Radical substitution (Liu, C. (112) Sulfur dioxide; Copper; Isobutene; X-ray photoelectron spec- 15) troscopy; Environment (Lu, H. (112) 459) Phenomena of oxidation Nitro compounds Calorimetry; Heat of adsorption; Heat of oxidation; Enthalpy of Acidic cocatalysts; Palladium catalyst; Nitrogen ligands; Reduc- PdO formation (Ho, Y.-S. (112) 287) tive carbonylation (Wehman, P. (112) 23) Phosphinated silica Nitrogen ligands Anchored complexes; '*C NMR; Cobalt: Ethylene; Hydroformyla- Acidic cocatalysts; Nitro compounds; Palladium catalyst; Reduc- tion; Mechanism; Palladium (Moroz, B.L. (112) 217) tive carbonylation (Wehman, P. (112) 23) Phosphines p-Nitropheny! acetate EPR; Coordination state; SiO,; Mo** ions; Molecular probes Histidine-containing resin; Hydrolysis (Hung, W.-H. (112) 1) (Sojka, Z. (112) 469) NMR Phosphorus pentoxide Ferric peroxo complexes; EPR: Oxidation; Cyclohexane (Sobolev, Methyl! formate; Acetic acid; Iridium catalyst (Cheong, M. (112) A.P. (112) 253) 389) Non-activated alkenes Photocatalysis Epoxidation; Titanium silica; TBHP (Cativiela, C. (112) 259) Oxidation; Sulphur; Fenton reactions; Iron; Peroxide (Ansari, A. NO reduction (112) 269) Copper; Environment; Hydrocarbon oxidation; Surface characteri- Photoconversion zation (Lu, H. (112) 447) Metallocenes; Stability; Olefin polymerization (Kaminsky, W. Olefin (112) 37) Hydroformylation: Cobalt; Carbonyl; Functionalized phosphine: Platinum /alumina Catalysis; Homogeneous (Rosi, L. (112) 367) Hydrosilylating properties; Solvent effects: Temperature effects Olefin polymerization (Fort, Y. (112) 311) Metallocenes; Stability; Photoconversion (Kaminsky, W. (112) Platinum oxide 37) TPR: TPD: Graphic plot (Hwang, C.-P. (112) 295) Oxidation Polyaniline Ferric peroxo complexes; EPR: NMR: Cyclohexane (Sobolev. Heteropolyacid; Keggin unit: Polymer: Cumene cracking: XPS A.P. (112) 253) (Dziembaj, R. (112) 423) Sulphur: Fenton reactions; Photocatalysis: Iron; Peroxide (Ansari, Polymer A. (112) 269) Heteropolyacid: Keggin unit: Polyaniline: Cumene cracking: XPS Wacker: Isomerization; Stereochemistry: Modified catalyst; Palla- (Dziembaj. R. (112) 423) dium(II) (Francis, J.W. (112) 317) Polyphenylene ether Cosalen; Phenol; EPR study (Bolzacchini. E. (112) 347) 2.6-dimethylphenol oxidation: Dinuclear Cu(IDdihydroxo com- Oxide catalysts plexes: Homogeneous catalysis (Camus. A. (112) 353) CO hydrogenation: /sobutene formation: "$C tracer study (Maruya, Propanal K.-i. (112) 143) Isomerization: Hydrogenation: Allyl alcohol: Amorphous alloy: Palladium Copper—zirconium: Copper: |-propanol: Selectivity (Martinek. T. Arylation: Allylic alcohols: a, B-unsaturated ketones: Copper tri- (112) 85) flate (Satoh, T. (112) 211) Propanoic acid Anchored complexes: 'C NMR: Cobalt: Ethylene: Hydroformyla- Ethene hydrocarboxylation: Rhodium iodide (Kilner, M. (112) tion: Mechanism: Phosphinated silica (Moroz, B.L. (112) 217) 327) Subject Index 1-propanol Silica supported zirconium catalysts Isomerization; Hydrogenation; Allyl alcohol; Amorphous alloy; Hydrogen transfer reduction; Alcohol oxidation; Ketone reduction Copper—zirconium; Copper; Propanal; Selectivity (Martinek, T. (Leyrit, P. (112) 395) (112) 85) SiO, Propene EPR; Coordination state; Mo** ions; Phosphines; Molecular Silica; Hydroformylation; Rhodium; Cobalt; Boron (Storaro, L. probes (Sojka, Z. (112) 469) (112) 43) SiO,-physisorbed RhCo,(CO),, Pt/Co bimetallic colloid Stabilization of RhCo,; Regeneration and dissociation of Selective hydrogenation; Cinnamaldehyde (Yu, W. (i112) 105) RhCo,(CO),, (Huang, L. (112) 69) Pumice Size exclusion chromatography Size exclusion chromatography; Catalyst support characterization; Catalyst support characterization; Pumice; Metal supported cata- Metal supported catalyst; Surface (Duca, D. (112) 413) lyst; Surface (Duca, D. (112) 413) Pyruvate hydrogenation SO, adsorption Enantioselective hydrogenation; Cinchona alkaloid modifiers Acid—base properties; Metal oxides; IR spectroscopy; Catalytic (Augustine, R.L. (112) 93) activity (Ziolek, M. (112) 125) Radical substitution Solvent effects Phenol hydroxylation; Iron(II)-1,10-phenanthroline (Liu, C. (112) Hydrosilylating properties; Platinum/alumina; Temperature ef- 15) fects (Fort, Y. (112) 311) Reaction mechanism Stability Bifunctional catalysis; Hydrogen spillover; Cyclohexane conver- Metallocenes; Photoconversion; Olefin polymerization (Kamin- sion (Roessner, F. (112) 401) sky, W. (112) 37) Reductive carbonylation Stabilization of RhCo, Acidic cocatalysts; Nitro compounds; Palladium catalyst; Nitrogen SiO,-physisorbed RhCo,(CO),,; Regeneration and dissociation of ligands (Wehman, P. (112) 23) RhCo,(CO),, (Huang, L. (112) 69) Regeneration and dissociation of RhCo,(CO),, Stereochemistry SiO,-physisorbed RhCo,(CO),,; Stabilization of RhCo, (Huang, Wacker; Isomerization; Oxidation; Modified catalyst; L. (112) 69) Palladium(ID (Francis, J.W. (112) 317) Regioselectivity Sulfur dioxide Rhodium; Carbon monoxide; Formic acid; Alkene conversion; Nitric oxide reduction; Copper; Isobutene; X-ray photoelectron Aldehydes (El Ali, B. (112) 195) spectroscopy; Environment (Lu, H. (112) 459) Resins Sulphur Zeolites; Acidity; Hydrolysis; Acetals (Moreau, C. (112) 133) Oxidation; Fenton reactions; Photocatalysis; Iron; Peroxide Rhodium (Ansari, A. (112) 269) Silica; Propene; Hydroformylation; Cobalt; Boron (Storaro, L. Surface (112) 43) Size exclusion chromatography; Catalyst support characterization; Carbon monoxide; Formic acid; Regioselectivity; Alkene conver- Pumice; Metal supported catalyst (Duca, D. (112) 413) sion; Aldehydes (El Ali, B. (112) 195) Surface characterization Rhodium iodide NO reduction; Copper; Environment; Hydrocarbon oxidation (Lu, Ethene hydrocarboxylation; Propanoic acid (Kilner, M. (112) 327) H. (112) 447) R-(+ )-limonene Surface organometallic chemistry Dehydrogenation; Paracymene; Pd/SiO,; Hydrogen transfer reac- Carene isomerization; Ni/SiO, catalyst; Tetra-n-butyl tin modi- tion (Lesage, P. (112) 431) fied catalyst (Lesage, P. (112) 303) Ruthenium chloride TBHP Carbon dioxide hydrogenation; Formic acid; Ruthenium com- Epoxidation; Titanium silica; Non-activated alkenes (Cativiela, C. plexes (Zhang, J.Z. (112) 9) (112) 259) Ruthenium complexes Temperature effects Carbon dioxide hydrogenation; Formic acid; Ruthenium chloride Hydrosilylating properties; Platinum/alumina; Solvent effects (Zhang, J.Z. (112) 9) (Fort, Y. (112) 311) SCR reaction Tetra-n-butyl tin modified catalyst Vanadia monolayer; Transient response technique; IR spec- Carene isomerization; Ni/SiO, catalyst; Surface organometallic troscopy (Pinaeva, L.G. (112) 115) chemistry (Lesage, P. (112) 303) Selective hydrogenation Titanium silica Pt/Co bimetallic colloid; Cinnamaldehyde (Yu, W. (112) 105) Epoxidation; TBHP; Non-activated alkenes (Cativiela, C. (112) Selectivity 259) Isomerization; Hydrogenation; Allyl alcohol; Amorphous alloy; TPD Copper—zirconium; Copper; Propanal; |-propanol (Martinek, T. TPR; Platinum oxide; Graphic plot (Hwang, C.-P. (112) 295) (112) 85) TPR Silica TPD; Platinum oxide; Graphic plot (Hwang, C.-P. (112) 295) Propene; Hydroformylation; Rhodium; Cobalt; Boron (Storaro, L. (112) 43) 492 Subject Index Transient response technique Water SCR reaction; Vanadia monolayer; IR spectroscopy (Pinaeva, Calcium oxide; Hydroxyl group stretching frequencies; MINDO/ 3 L.G. (112) 115) study (Zhanpeisov, N.U. (112) 63) Tungsten XPS a-Allyl hydride intermediate; Isomerization; Metathesis; Bis(al- Heteropolyacid; Keggin unit; Polymer; Polyaniline; Cumene kene) complexes (Szymafska-Buzar, T. (112) 203) cracking (Dziembaj, R. (112) 423) Vanadia monolayer X-ray photoelectron spectroscopy SCR reaction; Transient response technique; IR spectroscopy Nitric oxide reduction; Sulfur dioxide; Copper; Isobutene; Envi- (Pinaeva, L.G. (112) 115) ronment (Lu, H. (112) 459) Wacker Zeolites Isomerization; Oxidation; Stereochemistry; Modified catalyst; Pal- Resins; Acidity; Hydrolysis; Acetals (Moreau, C. (112) 133) ladium(II) (Francis, J.W. (112) 317)

See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.