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Journal of Molecular Catalysis A: Chemical 1996: Vol 110 Index PDF

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JOURNAL OF MOLECULAR CATALYSIS u¥V1AN:D C31H0ENM ICAL LSEVIER Journal of Molecular Catalysis A: Chemical 110 (1996) 243-244 Author Index Abdi, S.H.R., see Kureshy, R.I. (110) 33 Ganeshpure, P.A., see Samnani, P.B. (110) 89 Akimoto, T., see Yamanaka, I. (110) 119 Guarna, A., see Scarpi, D. (110) 129 Arena, F., Cum, G., Gallo, R. and Parmaliana, A. Hamamoto, M., see Fujibayashi, S.-y. (110) 105 Palladium catalysts supported on oligomeric aramides in the Heller, B., Heller, D. and Oehme, G. liquid-phase hydrogenation of phenylacetylene (110) 235 Systematic investigations of the photocatalytic alkyne—nitrile Bacaud, R., see Meriaudeau, P. (110) L177 heterotrimerisation to pyridine (110) 211 Baesjou, P.J., Driessen, W.L., Challa, G. and Reedijk, J. Heller, D., see Heller, B. (110) 211 A kinetic and spectroscopic study on the copper catalyzed Herold, R.H.M., see Crocker, M. (110) L7 oxidative coupling polymerization of 2,6-dimethylphenol. X- Hervé, G., see Bayer, R. (110) 65 ray structure of the catalyst precursor tetrakis( V-methylimid- Hu, C., Chen, Y., Li, P., Min, H., Chen, Y. and Tian, A. azole )bis(nitrato)copper(ID (110) 195 Temperature-programmed FT-IR study of the adsorption of Baiker, A., see Bodnar, Z. (110) 55 CO and co-adsorption of CO and H, on Ni/AI,O, (110) 163 Bayer, R., Marchal, C., Liu, F.X., Tézé, A. and Hervé, G. Ishii, Y., see Fujibayashi, S.-y. (110) 105 ESR characterization of V** as a counter-ion of the 12- Itoi, Y., see Tahara, K. (110) L5 molybdophosphate. Influence of thermal treatments (110) 65 Jacobs, P.A., see Sosa, R.C. (110) 141 Bhatt, A.K., see Kureshy, R.I. (110) 33 Jehng, J.-M., Deo, G., Weckhuysen, B.M. and Wachs, I.E. Bhattacharya, P.K., see Samnani, P.B. (110) 89 Effect of water vapor on the molecular structures of supported Bodnar, Z., Mallat, T. and Baiker, A. vanadium oxide catalysts at elevated temperatures (110) 41 Oxidation of 2,3,6-trimethylphenol to trimethyl-1,4-benzo- Jwo, J.-J., see Ou, J.-S. (110) 95 quinone with catalytic amount of CuCl, (110) 55 Keim, W., see Britovsek, G.J.P. (110) 77 Bolzacchini, E., Lucini, R., Meinardi, S., Orlandi, M. and Rindone, Khan, N.H., see Kureshy, R.I. (110) 33 B. Kolarié, S. and Sunji¢é, V. Effect of a proximal substituent on the triruthenium dodecacar- Comparative study of C(2) epimerization of D-glucose and bonyl-catalyzed reductive carbonylation of nitroarenes (110) D-mannose catalyzed by water soluble organometallic com- 227 plexes with nitrogen ligands (110) 181 Britovsek, G.J.P., Cavell, K.J. and Keim, W. Kolarié, S. and Sunjié, V. Hemilabile ligands in palladium catalysed C—C linkages: the Comparative study of homogeneous hydrogenation of D-glu- effect of the donor atom in the codimerisation of styrene with cose and D-mannose catalyzed by water soluble [Ru(tri(m- ethylene (110) 77 sulfophenyl)phosphine)] complex (110) 189 Cavell, K.J., see Britovsek, G.J.P. (110) 77 Koshy, V.J., see Samnani, P.B. (110) 89 Cenini, S., see Ragaini, F. (110) L171 Kureshy, R.I., Khan, N.H., Abdi, S.H.R. and Bhatt, A.K. Challa, G., see Baesjou, P.J. (110) 195 Asymmetric catalytic epoxidation of styrene by dissymmetric Chen, R.-H., see Ou, J.-S. (110) 95 Ma(III) and Ru(III) chiral Schiff base complexes synthesis and Chen, Y., see Hu, C. (110) 163 physicochemical studies (110) 33 Chen, Y., see Hu, C. (110) 163 Kurtev, K., see Mitkova, M. (110) 25 Choukroun, R., see Trzeciak, A.M. (110) 135 Lardinois, O., see Sosa, R.C. (110) 141 Crocker, M., Emeis, K.A. and Herold, R.H.M. Li, P., see Hu, C. (110) 163 Sulfur dioxide as a chemical probe for titanyl groups in Liu, F.X., see Bayer, R. (110) 65 titanium silicalites (110) L7 Longo, T., see Ragaini, F. (110) L171 Cum, G., see Arena, F. (110) 235 Lucini, R., see Bolzacchini, E. (110) 227 Deo, G., see Jehng, J.-M. (110) 41 Mallat, T., see Bodnar, Z. (110) 55 Driessen, W.L., see Baesjou, P.J. (110) 195 Marchal, C., see Bayer, R. (110) 65 Emeis, K.A., see Crocker, M. (110) L7 Masai, M., see Tahara, K. (110) L5 Fujibayashi, S.-y., Nakayama, K., Hamamoto, M., Sakaguchi, S., Meinardi, S., see Bolzacchini, E. (110) 227 Nishiyama, Y. and Ishii, Y. Menchi, G., see Scarpi, D. (110) 129 An efficient aerobic oxidation of various organic compounds Meriaudeau, P., Bacaud, R., Ngoc Hung, L. and Vu, Anh.T. catalyzed by mixed addenda heteropolyoxometalates contain- Isomerisation of butene in isobutene on ferrierite catalyst: A ing molybdenum and vanadium (110) 105 mono- or a bimolecular process? (110) L177 Gallo, R., see Arena, F. (110) 235 244 Author Index Min, H., see Hu, C. (110) 163 Satish, S., see Samnani, P.B. (110) 89 Mitkova, M., Tomov, A. and Kurtev, K. Scarpi, D., Menchi, G., Occhiato, E.G. and Guarna, A. A kinetic study of propylene dimerization by binuclear Asymmetric hydrogenation of prochiral ‘y-nitroketones by nickel—ylide complexes in presence of diethylaluminium chlo- ruthenium complexes (110) 129 ride as cocatalyst (110) 25 Sosa, R.C., Parton, R.F., Neys, P.E., Lardinois, O., Jacobs, P.A. Nagahara, E., see Tahara, K. (110) L5 and Rouxhet, P.G. Nakagaki, K., see Yamanaka, I. (110) 119 Surface modification of carbon black by oxidation and its Nakayama, K., see Fujibayashi, S.-y. (110) 105 influence on the activity of immobilized catalase and iron— Neys, P.E., see Sosa, R.C. (110) 141 phthalocyanines (110) 141 Ngoc Hung, L., see Meriaudeau, P. (110) L177 Sunjié, V., see Kolarié, S. (110) 181 Nishiyama, S., see Tahara, K. (110) L5 Sunjié, V., see Kolarié, S. (110) 189 Nishiyama, Y., see Fujibayashi, S.-y. (110) 105 Tahara, K., Nagahara, E., Itoi, Y., Nishiyama, S., Tsuruya, S. and Occhiato, E.G., see Scarpi, D. (110) 129 Masai, M. Oehme, G., see Heller, B. (110) 211 Liquid phase hydrogenation of carboxylic acid catalyzed by Ohkubo, K., Urabe, K., Yamamoto, J., Usui, S. and Sagawa, T. supported bimetallic Ru-Sn—alumina catalyst: effects of tin The role of membrane-promoted multi-point hydrophobic in- compounds in impregnation method (110) L5 teractions between peptide catalysts and enantiomeric sub- Tézé, A., see Bayer, R. (110) 65 strates in highly stereoselective hydrolyses of amino acid Tian, A., see Hu, C. (110) 163 esters (110) LI Tomov, A., see Mitkova, M. (110) 25 Orlandi, M., see Bolzacchini, E. (110) 227 Toniolo, L., see Vavasori, A. (110) 13 Otsuka, K., see Yamanaka, I. (110) 119 Trzeciak, A.M., Ziétkowski, J.J. and Choukroun, R. Ou, J.-S., Chen, R.-H. and Jwo, J.-J. New bimetallic rhodium—zirconium catalysts for homoge- Inverse phase transfer catalysis. Kinetics of the pyridine 1- neous olefin hydroformylation (110) 135 oxide-catalyzed reaction of chlorobenzoyl chloride and Tsuruya, S., see Tahara, K. (110) L5 chlorobenzoate ion (110) 95 Tynjala, P. and Pakkanen, T.T. Pakkanen, T.T., see Tynjala, P. (110) 153 Acidic properties of ZSM-5 zeolite modified with Ba**, Al** Parmaliana, A., see Arena, F. (110) 235 and La** ion-exchange (110) 153 Parton, R.F., see Sosa, R.C. (110) 141 Urabe, K., see Ohkubo, K. (110) L1 Prati, L. and Rossi, M. Usui, S., see Ohkubo, K. (110) L1 Stepwise oxidation of 1,2-diols resulting from molecular oxy- Vavasori, A. and Toniolo, L. gen activation by copper (110) 221 Carbon monoxide—ethylene copolymerization catalyzed by a Ragaini, F., Longo, T. and Cenini, S. Pd(AcO), /dppp/TsOH system: the promoting effect of water Addition of ethyl urethane to olefins: A new approach to the and of the acid (110) 13 synthesis of aliphatic carbamates (110) L171 Vu, Anh.T., see Meriaudeau, P. (110) L177 Reedijk, J., see Baesjou, P.J. (110) 195 Wachs, I.E., see Jehng, J.-M. (110) 41 Rindone, B., see Bolzacchini, E. (110) 227 Weckhuysen, B.M., see Jehng, J.-M. (110) 41 Rossi, M., see Prati, L. (110) 221 Yamamoto, J., see Ohkubo, K. (110) L1 Rouxhet, P.G., see Sosa, R.C. (110) 141 Yamanaka, I., Akimoto, T., Nakagaki, K. and Otsuka, K. Sagawa, T., see Ohkubo, K. (110) LI Oxidation and epoxidation of hydrocarbons with O, catalysed Sakaguchi, S., see Fujibayashi, S.-y. (110) 105 by EuCl, (110) 119 Samnani, P.B., Bhattacharya, P.K., Ganeshpure, P.A., Koshy, V.J. Zidtkowski, J.J., see Trzeciak, A.M. (110) 135 and Satish, S. Mixed ligand complexes of chromium(III) and iron(II}: syn- thesis and evaluation as catalysts for oxidation of olefins (1 10) 89 JOURNAL OF MOLECULAR CATALYSIS Eis) ¥IuO¥NV 1AN:D 2C HEMICAL SEVIER Journal of Molecular Catalysis A: Chemical 110 (1996) 245-248 Subject Index Acidity Binuclear complexes Propylene dimerization; Nickel—ylide complexes; Kinetics P. (110) 153) (Mitkova, M. (110) 25) Active site Cadmium Titanium; Silicalite; TS-1; Ti-MCM-41 (Crocker, M. (110) L7) Ethylenamines; Copper; Nickel; Cobalt; Epimerization; Isomeriza- Adsorption tion (Kolari¢é, S. (110) 181) FT-IR spectroscopy; Carbon monoxide; Nickel; Alumina (Hu, C. Carbon black (110) 163) Catalase; Cytochrome P-450; Iron—phthalocyanine; Zeolite Y; Alkynes Oxidation; Dismutation; Hydrophilicity; Cyclohexane (Sosa, R.C. Photochemical activation; Cobalt(I) complexes; Heterocy- (110) 141) clotrimerisation; Pyridine-derivatives; Nitriles (Heller, B. (110) Carbon monoxide 211) FT-IR spectroscopy; Adsorption; Nickel; Alumina (Hu, C. (110) Allyl 163) Codimerisation; Palladium; Styrene; Ethylene; Hemilabile {Britovsek, G.J.P. (110) 77) Carbonylation; Nitroarenes; Ruthenium (Bolzacchini, E. (110) 227) Alumina FT-IR spectroscopy; Adsorption; Carbon monoxide; Nickel (Hu, Carbonylation C. (110) 163) Carbon monoxide; Nitroarenes; Ruthenium (Bolzacchini, E. (110) 227) Aluminium Catalase (110) 153) Cytochrome P-450; Carbon black; Iron—phthalocyanine; Zeolite Y; Oxidation; Dismutation; Hydrophilicity; Cyclohexane (Sosa, Ammonium R.C. (110) 141) (Sulfopheny]l)phosphine derivatives; Phosphine derivatives; Ruthe- nium; Formiates; Sodium; Hydrogenation (Kolari¢é, S$. (110) 189) Catalyst Aromatic oligoamides Oxidation; Epoxidation; Chromium; Iron (Samnani, P.B. (110) 89) Palladium catalysts; Organic matrices; Phenylacetylene hydro- Cationic complexes genation; Metal dispersion; Turnover frequency (Arena, F. (110) Copolymerization; CO; Ethylene; Polyketones; Palladium (Vava- 235) sori, A. (110) 13) Asymmetric epoxidation Chlorobenzoate ion Epoxidation; Dissymmetric complexes; Schiff bases; Styrene; Chlorobenzoy! chloride; Pyridine 1-oxide; Inverse phase-transfer Manganese; Ruthenium (Kureshy, R.I. (110) 33) catalysis; Kinetics (Ou, J.-S. (110) 95) Asymmetric hydrogenation Chlorobenzoy! chloride y-Nitroketones; Ruthenium complexes; Homogeneous catalysis Chlorobenzoate ion; Pyridine 1l-oxide; Inverse phase-transfer (Scarpi, D. (110) 129) catalysis; Kinetics (Ou, J.-S. (110) 95) Barium Chromium P. (110) 153) Oxidation; Epoxidation; Catalyst; Iron (Samnani, P.B. (110) 89) Bilayer membrane CO NMR NOESY; Hydrophobic interaction; Supramolecular cataly- Copolymerization; Ethylene; Polyketones; Cationic complexes; sis; Stereoselectivity; Hydrolysis (Ohkubo, K. (110) L1) Palladium (Vavasori, A. (110) 13) Bimetallic complexes Cobalt Rhodium; Zirconium; Hydroformylation (Trzeciak, A.M. (110) Ethylenamines; Copper; Nickel; Cadmium; Epimerization; Iso- 135) merization (Kolari¢é, S. (110) 181) 246 Subject Index Cobalt(I) complexes Ethylenamines Photochemical activation; Heterocyclotrimerisation; Pyridine-de- Copper; Nickel; Cobalt; Cadmium; Epimerization; Isomerization rivatives; Alkynes; Nitriles (Heller, B. (110) 211) (Kolari¢é, S. (110) 181) Codimerisation Ethylene Palladium; Styrene; Ethylene; Allyl; Hemilabile (Britovsek, G.J.P. Copolymerization; CO; Polyketones; Cationic complexes; Palla- (110) 77) dium (Vavasori, A. (110) 13) Copolymerization Codimerisation; Palladium; Styrene; Allyl; Hemilabile (Britovsek, CO; Ethylene; Polyketones; Cationic complexes; Palladium G.J.P. (110) 77) (Vavasori, A. (110) 13) Europium Copper Epoxidation; Oxidation; Rare earth; Monooxygenation (Yamanaka, Oxidation; Trimethyl benzoquinone; Phenol (Bodnar, Z. (110) 55) I. (110) 119) Ethylenamines; Nickel; Cobalt; Cadmium; Epimerization; Isomer- Formiates ization (Kolarié, S. (110) 181) (Sulfophenyl)phosphine derivatives; Phosphine derivatives; Ruthe- nium; Sodium; Ammonium; Hydrogenation (Kolarié, S. (110) Reaction mechanism; Kinetics; Dioxygen uptake; Phenol; Oxida- 189) tion; Imidazole derivatives (Baesjou, P.J. (110) 195) FT-IR spectroscopy Oxidation; Diol; a-Diketon; a-Hydroxyacid (Prati, L. (110) 221) Adsorption; Carbor monoxide; Nickel; Alumina (Hu, C. (110) Cyclohexane 163) Catalase; Cytochrome P-450; Carbon black; Iron—phthalocyanine; Hemilabile Zeolite Y; Oxidation; Dismutation; Hydrophilicity (Sosa, R.C. Codimerisation; Palladium; Styrene; Ethylene; Allyl (Britovsek, (110) 141) G.J.P. (110) 77) Cytochrome P-450 Heterocyclotrimerisation Catalase; Carbon black; Iron—phthalocyanine; Zeolite Y; Oxida- Photochemical activation; Cobalt(I) complexes; Pyridine-deriva- tion; Dismutation; Hydrophilicity; Cyclohexane (Sosa, R.C. (110) tives; Alkynes; Nitriles (Heller, B. (110) 211) 141) Heteropolyoxometalate a-Diketon Molecular oxygen; Oxidation; Molybdovanadophosphate (Fujiba- Oxidation; Copper; Diol; a-Hydroxyacid (Prati, L. (110) 221) yashi, S.-y. (110) 105) Diol Homogeneous catalysis Oxidation; Copper; a-Diketon; a-Hydroxyacid (Prati, L. (110) Asymmetric hydrogenation; y-Nitroketones; Ruthenium com- 221) plexes (Scarpi, D. (110) 129) Dioxygen uptake Hydrotormy lation Reaction mechanism; Kinetics; Phenol; Oxidation; Copper; Imida- Bimetallic complexes; Rhodium; Zirconium (Trzeciak, A.M. (110) zole derivatives (Baesjou, P.J. (110) 195) 135) Dismutation Hydrogenation Catalase; Cytochrome P-450; Carbon black; Iron—phthalocyanine; (Sulfopheny!)phosphine derivatives; Phosphine derivatives; Ruthe- Zeolite Y; Oxidation; Hydrophilicity; Cyclohexane (Sosa, R.C. nium; Formiates; Sodium; Ammonium (Kolarié, S$. (110) 189) (110) 141) Ruthenium; Tin; Rosin; Industrial use (Tahara, K. (110) L5) Dissymmetric complexes Asymmetric epoxidation; Epoxidation; Schiff bases; Styrene; Hydrolysis Manganese; Ruthenium (Kureshy, R.1. (110) 33) NMR NOESY; Hydrophobic interaction; Supramolecular cataly- sis; Bilayer membrane; Stereoselectivity (Ohkubo, K. (110) L1) Epimerization Hydrophilicity Ethylenamines; Copper; Nickel; Cobalt; Cadmium; Isomerization (Kolarié, S$. (110) 181) Catalase; Cytochrome P-450; Carbon black; Iron—phthalocyanine; Zeolite Y; Oxidation; Dismutation; Cyclohexane (Sosa, R.C. (110) Epoxidation 141) Asymmetric epoxidation; Dissymmetric complexes; Schiff bases; Hydrophobic interaction Styrene; Manganese; Ruthenium (Kureshy, R.I. (110) 33) NMR NOESY; Supramolecular catalysis; Bilayer membrane; Oxidation; Catalyst; Chromium; Iron (Samnani, P.B. (110) 89) Stereoselectivity; Hydrolysis (Ohkubo, K. (110) L1) Europium; Oxidation; Rare earth; Monooxygenation (Yamanaka, a-Hydroxyacid I. (110) 119) Oxidation; Copper; Diol; a-Diketon (Prati, L. (110) 221) ESR Imidazole derivatives Polyoxometalates; Molybdophosphate; Vanadium (Bayer, R. (110) Reaction mechanism; Kinetics; Dioxygen uptake; Phenol; Oxida- 65) tion; Copper (Baesjou, P.J. (110) 195) Subject Index Industrial use Nickel—ylide complexes Ruthenium; Tin; Hydrogenation; Rosin (Tahara, K. (110) L5) Propylene dimerization; Binuclear complexes; Kinetics (Mitkova, M. (110) 25) Inverse phase-transfer catalysis Chlorobenzoy! chloride; Chlorobenzoate ion; Pyridine 1-oxide; Nitriles Kinetics (Ou, J.-S. (110) 95) Photochemical activation; Cobalt(I1) complexes; Heterocy- clotrimerisation; Pyridine-derivatives; Alkynes (Heller, B. (110) lon-exchange 211) ZSM-5; Acidity; Lanthanum; Aluminium; Barium (Tynjala, P. (110) 153) Nitroarenes Carbon monoxide; Carbonylation; Ruthenium (Bolzacchini, E. Iron (110) 227) Oxidation; Epoxidation; Catalyst; Chromium (Samnani, P.B. (110) y-Nitroketones 89) Asymmetric hydrogenation; Ruthenium complexes; Homogeneous Iron—phthalocyanine catalysis (Scarpi, D. (110) 129) Catalase; Cytochrome P-450; Carbon black; Zeolite Y; Oxidation; NMR NOESY Dismutation; Hydrophilicity; Cyclohexane (Sosa, R.C. (110) 141) Hydrophobic interaction; Supramolecular catalysis; Bilayer mem- Isomerization brane; Stereoselectivity; Hydrolysis (Ohkubo, K. (110) L1) Ethylenamines; Copper; Nickel; Cobalt; Cadmium; Epimerization Organic matrices (Kolari¢é, S. (110) 181) Palladium catalysts; Aromatic oligoamides; Phenylacetylene hy- drogenation; Metal dispersion; Turnover frequency (Arena, F. Kinetics Propylene dimerization; Binuclear complexes; Nickel—ylide com- (110) 235) plexes (Mitkova, M. (110) 25) Oxidation Trimethyl benzoquinone; Phenol; Copper (Bodnar, Z. (110) 55) Chlorobenzoy! chloride; Chlorobenzoate ion; Pyridine 1-oxide; Inverse phase-transfer catalysis (Ou, J.-S. (110) 95) Epoxidation; Catalyst; Chromium; Iron (Samnani, P.B. (110) 89) Reaction mechanism; Dioxygen uptake; Phenol; Oxidation; Cop- Molecular oxygen; Heteropolyoxometalate; Molybdovanadophos- per; Imidazole derivatives (Baesjou, P.J. (110) 195) phate (Fujibayashi, S.-y. (110) 105) Europium; Epoxidation; Rare earth; Monooxygenation (Yamanaka, Lanthanum I. (110) 119) ZSM-S5; Acidity; Aluminium; Barium; Ion-exchange (Tynjala, P. (110) 153) Catalase; Cytochrome P-450; Carbon black; Iron—phthalocyanine; Zeolite Y; Dismutation; Hydrophilicity; Cyclohexane (Sosa, R.C. Manganese (110) 141) Asymmetric epoxidation; Epoxidation; Dissymmetric complexes; Schiff bases; Styrene; Ruthenium (Kureshy, R.I. (110) 33) Reaction mechanism; Kinetics; Dioxygen uptake; Phenol; Copper; Imidazole derivatives (Baesjou, P.J. (110) 195) Metal dispersion Copper; Diol; a-Diketon; a-Hydroxyacid (Prati, L. (110) 221) Palladium catalysts; Organic matrices; Aromatic oligoamides; Phenylacetylene hydrogenation; Turnover frequency (Arena, F. Palladium (110) 235) Copolymerization; CO; Ethylene; Polyketones; Cationic com- plexes (Vavasori, A. (110) 13) Molecular oxygen Oxidation; Heteropolyoxometalate; Molybdovanadophosphate Codimerisation; Styrene; Ethylene; Allyl; Hemilabile (Britovsek, (Fujibayashi, S.-y. (110) 105) G.J.P. (110) 77) Molybdophosphate Palladium catalysts ; Polyoxometalates; Vanadium; ESR (Bayer, R. (110) 65) Organic matrices; Aromatic oligoamides; Phenylacetylene hydro- genation; Metal dispersion; Turnover frequency (Arena, F. (110) Molybdovanadophosphate 235) Molecular oxygen; Oxidation; Heteropolyoxometalate (Fujiba- Phenol yashi, S.-y. (110) 105) Oxidation; Trimethyl benzoquinone; Copper (Bodnar, Z. (110) 55) Monooxygenation Reaction mechanism; Kinetics; Dioxygen uptake; Oxidation; Cop- Europium; Epoxidation; Oxidation; Rare earth (Yamanaka, I. (110) per; Imidazole derivatives (Baesjou, P.J. (110) 195) 119) Phenylacetylene hydrogenation Nickel Palladium catalysts; Organic matrices; Aromatic oligoamides; FT-IR spectroscopy; Adsorption; Carbon monoxide; Alumina (Hu, Metal dispersion; Turnover frequency (Arena, F. (110) 235) C. (110) 163) Phosphine derivatives Ethylenamines; Copper; Cobalt; Cadmium; Epimerization; Iso- (Sulfophenyl)phosphine derivatives; Ruthenium; Formiates; merization (Kolari¢é, S. (110) 181) Sodium; Ammonium; Hydrogenation (Kolari¢é, S. (110) 189) 248 Subject Index (Sulfophenyl)phosphine derivatives Stereoselectivity Phosphine derivatives; Ruthenium; Formiates; Sodium; Ammo- NMR NOESY; Hydrophobic interaction; Supramolecular cataly- nium; Hydrogenation (Kolarié, S. (110) 189) sis; Bilayer membrane; Hydrolysis (Ohkubo, K. (110) L1) Photochemical activation Structure Cobalt(I) complexes; Heterocyclotrimerisation; Pyridine-deriva- Water vapor; Vanadium oxide; Supported catalysts (Jehng, J.-M. tives; Alkynes; Nitriles (Heller, B. (110) 211) (110) 41) Polyketones Styrene Copolymerization; CO; Ethylene; Cationic complexes; Palladium Asymmetric epoxidation; Epoxidation; Dissymmetric complexes; (Vavasori, A. (110) 13) Schiff bases; Manganese; Ruthenium (Kureshy, R.I. (110) 33) Polyoxometalates Codimerisation; Palladium; Ethylene; Allyl; Hemilabile (Britov- Molybdophosphate; Vanadium; ESR (Bayer, R. (110) 65) sek, G.J.P. (110) 77) Propylene dimerization Supported catalysts Binuclear complexes; Nickel—ylide complexes; Kinetics (Mitkova, Water vapor; Structure; Vanadium oxide (Jehng, J.-M. (110) 41) M. (110) 25) Pyridine-derivatives Supramolecular catalysis Photochemical activation; Cobalt(1) complexes; Heterocy- NMR NOESY; Hydrophobic interaction; Bilayer membrane; clotrimerisation; Alkynes; Nitriles (Heller, B. (110) 211) Stereoselectivity; Hydrolysis (Ohkubo, K. (110) L1) Pyridine |-oxide Ti-MCM-41 Chlorobenzoy! chloride; Chlorobenzoate ion; Inverse phase-trans- Titanium; Silicalite; TS-1; Active site (Crocker, M. (110) L7) fer catalysis; Kinetics (Ou, J.-S. (110) 95) Tin Rare earth Ruthenium; Hydrogenation; Rosin; Industrial use (Tahara, K. Europium; Epoxidation; Oxidation; Monooxygenation (Yamanaka, (110) LS) I. (110) 119) Titanium Reaction mechanism Silicalite; TS-1; Ti-MCM-41; Active site (Crocker, M. (110) L7) Kinetics; Dioxygen uptake; Phenol; Oxidation; Copper; Imidazole derivatives (Baesjou, P.J. (110) 195) Trimethyl benzoquinone Oxidation; Phenol; Copper (Bodnar, Z. (110) 55) Rhodium Bimetallic complexes; Zirconium; Hydroformylation (Trzeciak, TS-1 A.M. (110) 135) Titanium; Silicalite; Ti-MCM-41; Active site (Crocker, M. (110) L7) Rosin Ruthenium; Tin; Hydrogenation; Industrial use (Tahara, K. (110) Turnover frequency LS) Palladium catalysts; Organic matrices; Aromatic oligoamides; Ruthenium Phenylacetylene hydrogenation; Metal dispersion (Arena, F. (110) 235) Asymmetric epoxidation; Epoxidation; Dissymmetric complexes; Schiff bases; Styrene; Manganese (Kureshy, R.I. (110) 33) Vanadium (Sulfophenyl)phosphine derivatives; Phosphine derivatives; Form- Polyoxometalates; Molybdophosphate; ESR (Bayer, R. (110) 65) iates; Sodium; Ammonium; Hydrogenation (Kolari¢, S. (110) 189) Vanadium oxide Carbon monoxide; Carbonylation; Nitroarenes (Bolzacchini, E. Water vapor; Structure; Supported catalysts (Jehng, J.-M. (110) (110) 227) 41) Tin; Hydrogenation; Rosin; Industrial use (Tahara, K. (110) LS) Water vapor Structure; Vanadium oxide; Supported catalysts Vlehng, J.-M. Ruthenium complexes Asymmetric hydrogenation; y-Nitroketones; Homogeneous cataly- (110) 41) sis (Scarpi, D. (110) 129) Zeolite Y Schiff bases Catalase; Cytochrome P-450; Carbon black; Iron—phthalocyanine; Asymmetric epoxidation; Epoxidation; Dissymmetric complexes; Oxidation; Dismutation; Hydrophilicity; Cyclohexane (Sosa, R.C. Styrene; Manganese; Ruthenium (Kureshy, R.I. (110) 33) (110) 141) Silicalite Zirconium Titanium; TS-1; Ti-MCM-41; Active site (Crocker, M. (110) L7) Bimetallic complexes; Rhodium; Hydroformylation (Trzeciak, A.M. (110) 135) Sodium (Sulfophenyl)phosphine derivatives; Phosphine derivatives; Ruthe- ZSM-5 nium; Formiates; Ammonium; Hydrogenation (Kolari¢, S. (110) 189) P. (110) 153)

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