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Journal of Molecular Catalysis A: Chemical 1996: Vol 108 Index PDF

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JOURNAL OF MOLECULAR CATALYSIS yV1NA:D IC1H0ENM ICAL Journal of Molecular Catalysis A: Chemical 108 (1996) 185-186 Author Index Abis, L., Belli Dell’ Amico, D., Calderazzo, F., Caminiti, R.., Gratzl, J.S., see Potthast, A. (108) 5 Garbassi, F., Ianelli, S., Pelizzi, G., Robino, P. and Tomei, A. Herrmann, W.A., Reisinger, C.-P., Ofele, K., BroBmer, C., Beller, N, N-Dialkylcarbamato complexes as precursors for the chemi- M. and Fischer, H. cal implantation of metal cations on a silica support. Part I. Facile catalytic coupling of aryl bromides with terminal alkynes Tin (108) 113 by phospha-palladacycles (108) 51 Allaoud, S., see Fdil, N. (108) 15 lanelli, S., see Abis, L. (108) 113 Avnir, D., see Sertchook, H. (108) 153 Ishida, T., see Yang, L.-C. (108) 87 Barrault, J., see Pouilloux, Y. (108) 161 Jiménez-Lépez, A., Maza-Rodriguez, J., Rodriguez-Castell6n, E. Batiot, C., see Brunet, S. (108) 11 and Olivera Pastor, P. Beaumont, A.J., see McCann, M. (108) 23 Mixed alumina chromia pillared layered a@-zirconium phos- Bebin, P., see Lavastre, O. (108) 29 phate materials: acidity and catalytic behaviour for isopropyl Beller, M., see Herrmann, W.A. (108) 51 alcohol decomposition (108) 177 Belli Dell’ Amico, D., see Abis, L. (108) 113 Jo6, F., see Sertchook, H. (108) 153 Blasco, J., see Sanchez Sierra, M.C. (108) 95 Karim, A., see Fdil, N. (108) 15 Blum, J., see Sertchook, H. (108) 153 Kathé, A., see Sertchook, H. (108) 153 BroBmer, C., see Herrmann, W.A. (108) 51 Kluson, P. and Cerveny, L. Brunet, S., Batiot, C. and Calderon, M. Hydrogenation of substituted aromatic compounds over a Catalytic liquid phase fluorinations with Sb—Ti mixed halides ruthenium catalyst (108) 107 (108) 11 Kuznetsova, L.I., see Kuznetsova, N.I. (108) 135 Burlakov, V.V., see Ohff, A. (108) 119 Kuznetsova, N.I., Kuznetsova, L.I. and Likholobov, V.A. Calderazzo, F., see Abis, L. (108) 113 Catalytic properties of Cr-containing heteropolytungstates in Calderon, M., see Brunet, S. (108) 11 H,O, participated reactions: H,0, decomposition and oxida- Caminiti, R., see Abis, L. (108) 113 tion of unsaturated hydrocarbons with H,O, (108) 135 Castanet, Y., see Fdil, N. (108) 15 Lakshmi, P.J., Mallu, K.C., Rajanna, K.C. and Saiprakash, P.K. Cerveny, L., see Kluson, P. (108) 107 Kinetic and mechanistic study of electron transfer from L- Chen, C.L., see Potthast, A. (108) 5 ascorbic acid and diols to Fe(III) chelates in aqueous H,SO, Chernysheva, T.V., see Moiseev, 1.1. (108) 77 acid and micellar media (108) 63 Corain, B., see Primavera, A. (108) 131 Lavastre, O., Bebin, P., Marchaland, O. and Dixneuf, P.H. Crabtree, R.H., see Yoneyama, T. (108) 35 Recyclable polymeric phosphine-ruthenium catalyst for the Dell’ Anna, M.M., Mastrorilli, P. and Nobile, C.F. synthesis of new enol diesters (108) 29 Aerobic oxidation of sulfides catalysed by cobalt(II) com- Likholobov, V.A., see Kuznetsova, N.I. (108) 135 plexes under homogeneous and heterogeneous conditions (108) Ma, H., see Zhao, B. (108) 167 57 Makhlina, A.M., see Moiseev, LI. (108) 77 Dixneuf, P.H., see Lavastre, O. (108) 29 Mallu, K.C., see Lakshmi, P.J. (108) 63 Dutel, J.F., see Mériaudeau, P. (108) L1 Marchaland, O., see Lavastre, O. (108) 29 Fdil, N., Romane, A., Allaoud, S., Karim, A., Castanet, Y. and Mastrorilli, P., see Dell’ Anna, M.M. (108) 57 Mortreux, A. Mathé, T., see Tungler, A. (108) 145 Terpenic olefin epoxidation using metals acetylacetonates as Maza-Rodriguez, J., see Jiménez-Lépez, A. (108) 177 catalysts (108) 15 McCann, M. and Beaumont, A.J. Fischer, H., see Herrmann, W.A. (108) 51 Catalytic properties of novel chiral polyoxomolybdate(VI) Fodor, K., see Tungler, A. (108) 145 salts: The ring-opening metathesis polymerization (ROMP) of Gallezot, P., see Tungler, A. (108) 145 norbornene (108) 23 Galvagno, S., see Neri, G. (108) 41 Mercadante, L., see Neri, G. (108) 41 Garbassi, F., see Abis, L. (108) 113 Mériaudeau, P. and Dutel, J.F. Garcia Ruiz, J., see Sanchez Sierra, M.C. (108) 95 Interaction of propane with H-ZSM-5 and Ga/H-ZSM-5 as Gekhman, A.E., see Moiseev, I.I. (108) 77 studied by IR spectroscopy (108) L1 Gomes da Rosa, R., see Sanchez-Delgado, R.A. (108) 125 Milone, C., see Neri, G. (108) 41 186 Author Index Moiseev, LI., Vargaftik, M.N., Chernysheva, T.V., Stromnova, The mechanism of the mild rhodium-catalyzed carbonylation T.A., Gekhman, A.E., Tsirkov, G.A. and Makhlina, A.M. and cyclization of N-alkylallylamines to y-butyrolactams un- Catalysis with a palladium giant cluster: phenol oxidative der CO/H, (108) 125 carbonylation to diphenyl carbonate conjugated with reductive Sanchez Sierra, M.C., Garcia Ruiz, J., Proietti, M.G. and Blasco, nitrobenzene conversion (108) 77 S. Mortreux, A., see Fdil, N. (108) 15 EXAFS study of monometallic and bimetallic ruthenium based Neri, G., Mercadante, L., Milone, C., Pietropaolo, R. and Gal- catalysts: Ge K-edge environment in RuGe /AI,O, and struc- vagno, S. tural effects of CO adsorption (108) 95 Hydrogenation of citral and cinnamaldehyde over bimetallic Schumann, H., see Sertchook, H. (108) 153 Ru—Me/AI,O, catalysts (108) 41 Sertchook, H., Avnir, D., Blum, J., Jo6, F., Kathé, A., Schumann, Nobile, C.F., see Dell’ Anna, M.M. (108) 57 H., Weimann, R. and Wernik, S. Ocando-Mavarez, E., see Sanchez-Delgado, R.A. (108) 125 Sol—gel entrapped lipophilic and hydrophilic ruthenium-, Ofele, K., see Herrmann, W.A. (108) 51 rhodium—, and iridium—phosphine complexes as recyclable Ohff, A., Burlakov, V.V. and Rosenthal, U. isomerization catalysts (108) 153 Acetylene polymerization by titanocene alkyne complexes Sheldon, R.A., see Tungler, A. (108) 145 (108) 119 Shinoda, S., see Yang, L.-C. (108) 87 Olivera Pastor, P., see Jiménez-Lépez, A. (108) 177 Stromnova, T.A., see Moiseev, LI. (108) 77 Pelizzi, G., see Abis, L. (108) 113 Tang, Y., see Zhao, B. (108) 167 Piccirilli, A., see Pouilloux, Y. (108) 161 Tomei, A., see Abis, L. (108) 113 Pietropaolo, R., see Neri, G. (108) 41 Tsirkov, G.A., see Moiseev, I.I. (108) 77 Potthast, A., Rosenau, T., Chen, C.L. and Gratzl, J.S. Tungler, A., Mathé, T., Fodor, K., Sheldon, R.A. and Gallezot, P. A novel method for the conversion of benzyl alcohols to A new chiral auxiliary in enantioselective hydrogenations: benzaldehydes by laccase-catalyzed oxidation (108) 5 (— )-dihydrovinpocetine. Hydrogenation of ethyl pyruvate. II Pouilloux, Y., Piccirilli, A. and Barrault, J. (108) 145 Selective hydrogenation into oleyl alcohol of methyl oleate in Vargaftik, M.N., see Moiseev, I.1. (108) 77 the presence of Ru-Sn/AI,O, catalysts (108) 161 Wang, X., see Zhao, B. (108) 167 Primavera, A., Zecca, M. and Corain, B. Weimann, R., see Sertchook, H. (108) 153 Interpenetrating organometallic polymer networks in heteroge- Wernik, S., see Sertchook, H. (108) 153 neous metal catalysis: a preliminary evaluation (108) 131 Yamakawa, T., see Yang, L.-C. (108) 87 Proietti, M.G., see Sanchez Sierra, M.C. (108) 95 Yang, L.-C., Ishida, T., Yamakawa, T. and Shinoda, S. Rajanna, K.C., see Lakshmi, P.J. (108) 63 Mechanistic study on dehydrogenation of methanol with Reisinger, C.-P., see Herrmann, W.A. (108) 51 [RuCl,(PR ,),]-type catalyst in homogeneous solutions (108) Robino, P., see Abis, L. (108) 113 87 Rodriguez-Castell6n, E., see Jiménez-Lépez, A. (108) 177 Yoneyama, T. and Crabtree, R.H. Romane, A., see Fdil, N. (108) 15 Pd(II) catalyzed acetoxylation of arenes with iodosyl acetate Rosenau, T., see Potthast, A. (108) 5 (108) 35 Rosenthal, U., see Ohff, A. (108) 119 Zecca, M., see Primavera, A. (108) 131 Saiprakash, P.K., see Lakshmi, P.J. (108) 63 Zhao, B., Wang, X., Ma, H. and Tang, Y. Sanchez-Delgado, R.A., Gomes da Rosa, R. and Ocando-Mavarez, Raman spectroscopy studies on the structure of MoO, /ZrO, B. solid superacid (108) 167 JOURNAL OF MOLECULAR CATALYSIS es UR . et u1V01NN 2A:3 2C HEMICAL ELSEVIER Journal of Molecular Catalysis A: Chemical 108 (1996) 187-190 Subject Index ABTS Benzene Enzymatic catalysis; Oxidation; Benzyl alcohols; Laccase Chromium; Heteropolytungstates; Hydrogen peroxide; Oxida- (Potthast, A. (108) 5) tion; Cyclohexene (Kuznetsova, N.I. (108) 135) Acetoxylation Benzyl alcohols Arenes; Palladium acetate; lodosyl acetate; Nuclear oxidation Enzymatic catalysis; Oxidation; Laccase; ABTS (Potthast, A. (Yoneyama, T. (108) 35) (108) 5) Acetylacetonate Bimetallic catalysts Epoxidation; Nickel; Transition metals; Terpenic olefins; Oxy- Hydrogenation; Unsaturated aldehydes; Aldehydes; Ruthe- gen (Fdil, N. (108) 15) nium (Neri, G. (108) 41) Acetylene Monometallic catalysts; Ruthenium; Structural properties Polymerization; Titanocene; Alkyne complexes (Ohff, A. (108) (Sanchez Sierra, M.C. (108) 95) 119) Boron Acetylenes Ruthenium; Tin; Methyl oleate hydrogenation; Hydrogenation; Palladium; Palladacycles; Aryl halides; CC-coupling (Herr- Oley! alcohol; Transesterification (Pouilloux, Y. (108) 161) mann, W.A. (108) 51) Carbamate Acidity Implantation; Tin; Silica; N,N-Dialkylcarbamates (Abis, L. Pillared materials; Chromia; Alumina; Zirconium phosphate (108) 113) (Jiménez-Lépez, A. (108) 177) Carbonylation Aldehydes Rhodium; Cyclization; Allylamines; Lactams; Mechanism Hydrogenation; Unsaturated aldehydes; Ruthenium; Bimetallic (Sanchez-Delgado, R.A. (108) 125) catalysts (Neri, G. (108) 41) Carbonyl group Alkyne activation Ruthenium; Hydrogenation; Aromatic substrates; Selectivity Ruthenium; Polymeric phosphine; Phosphine; Recyclable cata- (Kluson, P. (108) 107) lyst; Enol diester (Lavastre, O. (108) 29) CC-coupling Alkyne complexes Palladium; Palladacycles; Acetylenes; Aryl halides (Herrmann, Polymerization; Acetylene; Titanocene (Ohff, A. (108) 119) W.A. (108) 51) Allylamines Chiral Rhodium; Carbonylation; Cyclization; Lactams; Mechanism Polyoxomolybdate; Metathesis; Ring-opening; Polymerization; (Sanchez-Delgado, R.A. (108) 125) Norbornene; Molybdenum (McCann, M. (108) 23) Alumina Chiral auxiliary Pillared materials; Chromia; Zirconium phosphate; Acidity Dihydrovinpocetine; Hydrogenation; Enantioselectivity; Ethyl (Jiménez-Lépez, A. (108) 177) pyruvate (Tungler, A. (108) 145) Antimony Chlorides Fluorination; Tetrachlorethene; Lewis acid; Chlorides; Tita- Fluorination; Tetrachlorethene; Lewis acid; Antimony; Tita- nium (Brunet, S. (108) 11) nium (Brunet, S. (108) 11) Arenes Chromia Acetoxylation; Palladium acetate; Iodosyl acetate; Nuclear Pillared materials; Alumina; Zirconium phosphate; Acidity oxidation (Yoneyama, T. (108) 35) (Jiménez-Lépez, A. (108) 177) Aromatic substrates Chromium Ruthenium; Hydrogenation; Selectivity; Carbonyl! group (Klu- Heteropolytungstates; Hydrogen peroxide; Oxidation; Cyclo- son, P. (108) 107) hexene; Benzene (Kuznetsova, N.I. (108) 135) Aryl halides Cobalt Palladium; Palladacycles; Acetylenes; CC-coupling (Herr- Sulphoxidation; $-Ketoesterates; Heterogeneous reactions; mann, W.A. (108) 51) Supported catalysts; Polymer-supported catalysis (Dell’ Anna, Ascorbic acid M.M. (108) 57) Kinetics; Mechanism; Electron transfer; Iron; Sulphuric acid; Micelles (Lakshmi, P.J. (108) 63) 188 Subject Index Conjugated reactions Interpenetrating polymer networks Palladium clusters; Oxidative carbonylation; Phenol; Nitroben- Organic support; Polymer networks; Palladium; Supported zene; Dipheny! carbonate (Moiseev, I.I. (108) 77) catalysts (Primavera, A. (108) 131) Cyclization Iodosyl acetate Rhodium; Carbonylation; Allylamines; Lactams; Mechanism Arenes; Acetoxylation; Palladium acetate; Nuclear oxidation (Sanchez-Delgado, R.A. (108) 125) (Yoneyama, T. (108) 35) Cyclohexene Iridium Chromium; Heteropolytungstates; Hydrogen peroxide; Oxida- Ruthenium; Rhodium; Sol—gel; Isomerization (Sertchook, H. tion; Benzene (Kuznetsova, N.I. (108) 135) (108) 153) Dehydrogenation Iron Ruthenium; Methanol; Phosphine-derivative complexes; Lig- Kinetics; Mechanism; Electron transfer; Ascorbic acid; Sul- and effect (Yang, L.-C. (108) 87) phuric acid; Micelles (Lakshmi, P.J. (108) 63) Dihydrovinpocetine Isomerization Hydrogenation; Enantioselectivity; Chiral auxiliary; Ethyl Ruthenium; Rhodium; Iridium; Sol—gel (Sertchook, H. (108) pyruvate (Tungler, A. (108) 145) 153) Dipheny! carbonate B-Ketoesterates Palladium clusters; Oxidative carbonylation; Conjugated reac- Sulphoxidation; Heterogeneous reactions; Cobalt; Supported tions; Phenol; Nitrobenzene (Moiseev, I.I. (108) 77) catalysts; Polymer-supported catalysis (Dell’ Anna, M.M. (108) Electron transfer 57) Kinetics; Mechanism; Ascorbic acid; Iron; Sulphuric acid; Kinetics Micelles (Lakshmi, P.J. (108) 63) Mechanism; Electron transfer; Ascorbic acid; Iron; Sulphuric Enantioselectivity acid; Micelles (Lakshmi, P.J. (108) 63) Dihydrovinpocetine; Hydrogenation; Chiral auxiliary; Ethyl Laccase pyruvate (Tungler, A. (108) 145) Enzymatic catalysis; Oxidation; Benzyl alcohols; ABTS (Pot- Enol diester thast, A. (108) 5) Ruthenium; Polymeric phosphine; Phosphine; Recyclable cata- Lactams lyst; Alkyne activation (Lavastre, O. (108) 29) Rhodium; Carbonylation; Cyclization; Allylamines; Mecha- Enzymatic catalysis nism (Sanchez-Delgado, R.A. (108) 125) Oxidation; Benzyl alcohols; Laccase; ABTS (Potthast, A. (108) Lewis acid 5) Fluorination; Tetrachlorethene; Chlorides; Antimony; Tita- Epoxidation nium (Brunet, S. (108) 11) Nickel; Acetylacetonate; Transition metals; Terpenic olefins; Ligand effect Oxygen (Fdil, N. (108) 15) Ruthenium; Methanol; Dehydrogenation; Phosphine-derivative Ethyl pyruvate complexes (Yang, L.-C. (108) 87) Dihydrovinpocetine; Hydrogenation; Enantioselectivity; Chiral Mechanism auxiliary (Tungler, A. (108) 145) Kinetics; Electron transfer; Ascorbic acid; Iron; Sulphuric Fluorination acid; Micelles (Lakshmi, P.J. (108) 63) Tetrachlorethene; Lewis acid; Chlorides; Antimony; Titanium Rhodium; Carbonylation; Cyclization; Allylamines; Lactams (Brunet, S. (108) 11) (Sanchez-Delgado, R.A. (108) 125) Heterogeneous reactions Metathesis Sulphoxidation; B-Ketoesterates; Cobalt; Supported catalysts; Polyoxomolybdate; Chiral; Ring-opening; Polymerization; Polymer-supported catalysis (Dell’ Anna, M.M. (108) 57) Norbornene; Molybdenum (McCann, M. (108) 23) Heteropolytungstates Methanol Chromium; Hydrogen peroxide; Oxidation; Cyclohexene; Ben- Ruthenium; Dehydrogenation; Phosphine-derivative com- zene (Kuznetsova, N.I. (108) 135) plexes; Ligand effect (Yang, L.-C. (108) 87) Hydrogenation Methyl! oleate hydrogenation Unsaturated aldehydes; Aldehydes; Ruthenium; Bimetallic cat- Ruthenium; Tin; Boron; Hydrogenation; Oley! alcohol; Trans- alysts (Neri, G. (108) 41) esterification (Pouilloux, Y. (108) 161) Ruthenium; Aromatic substrates; Selectivity; Carbonyl group Micelles (Kluson, P. (108) 107) Kinetics; Mechanism; Electron transfer; Ascorbic acid; Iron; Dihydrovinpocetine; Enantioselectivity; Chiral auxiliary; Ethyl] Sulphuric acid (Lakshmi, P.J. (108) 63) pyruvate (Tungler, A. (108) 145) Molybdenum Ruthenium; Tin; Boron; Methyl oleate hydrogenation; Oley! Polyoxomolybdate; Chiral; Metathesis; Ring-opening; Poly- alcohol; Transesterification (Pouilloux, Y. (108) 161) merization; Norbornene (McCann, M. (108) 23) Hydrogen peroxide Molybdenum(VI) oxide Chromium; Heteropolytungstates; Oxidation; Cyclohexene; Superacid; Zirconia; Raman spectra; Quantitative Raman anal- Benzene (Kuznetsova, N.I. (108) 135) ysis; Surface states (Zhao, B. (108) 167) Implantation Monometallic catalysts Carbamate; Tin; Silica; N, N-Dialkylcarbamates (Abis, L. (108) Ruthenium; Bimetallic catalysts; Structural properties 113) (Sanchez Sierra, M.C. (108) 95) Subject Index Nickel Polymeric phosphine Epoxidation; Acetylacetonate; Transition metals; Terpenic Ruthenium; Phosphine; Recyclable catalyst; Enol diester; olefins; Oxygen (Fdil, N. (108) 15) Alkyne activation (Lavastre, O. (108) 29) Nitrobenzene Polymerization Palladium clusters; Oxidative carbonylation; Conjugated reac- Polyoxomolybdate; Chiral; Metathesis; Ring-opening; Nor- tions; Phenol; Diphenyl carbonate (Moiseev, I.I. (108) 77) bornene; Molybdenum (McCann, M. (108) 23) N, N-Dialkylcarbamates Acetylene; Titanocene; Alkyne complexes (Ohff, A. (108) Implantation; Carbamate; Tin; Silica (Abis, L. (108) 113) 119) Norbornene Polymer networks Polyoxomolybdate; Chiral; Metathesis; Ring-opening; Poly- Organic support; Palladium; Interpenetrating polymer net- merization; Molybdenum (McCann, M. (108) 23) works; Supported catalysts (Primavera, A. (108) 131) Nuclear oxidation Polymer-supported catalysis Arenes; Acetoxylation; Palladium acetate; Iodosyl acetate Sulphoxidation; {-Ketoesterates; Heterogeneous reactions; (Yoneyama, T. (108) 35) Cobalt; Supported catalysts (Dell’ Anna, M.M. (108) 57) Oley! alcohol Polyoxomolybdate Ruthenium; Tin; Boron; Methyl oleate hydrogenation; Hydro- Chiral; Metathesis; Ring-opening; Polymerization; Nor- genation; Transesterification (Pouilloux, Y. (108) 161) bornene; Molybdenum (McCann, M. (108) 23) Organic support Quantitative Raman analysis Polymer networks; Palladium; Interpenetrating polymer net- Superacid; Molybdenum(VI) oxide; Zirconia; Raman spectra; works; Supported catalysts (Primavera, A. (108) 131) Surface states (Zhao, B. (108) 167) Oxidation Raman spectra Enzymatic catalysis; Benzyl alcohols; Laccase; ABTS (Pot- Superacid; Molybdenum(VI) oxide; Zirconia; Quantitative Ra- thast, A. (108) 5) man analysis; Surface states (Zhao, B. (108) 167) Chromium; Heteropolytungstates; Hydrogen peroxide; Cyclo- Recyclable catalyst hexene; Benzene (Kuznetsova, N.I. (108) 135) Ruthenium; Polymeric phosphine; Phosphine; Enol diester; Oxidative carbonylation Alkyne activation (Lavastre, O. (108) 29) Palladium clusters; Conjugated reactions; Phenol; Nitroben- Rhodium zene; Diphenyl carbonate (Moiseev, 1.1. (108) 77) Carbonylation; Cyclization; Allylamines; Lactams; Mecha- Oxygen nism (Sénchez-Delgado, R.A. (108) 125) Epoxidation; Nickel; Acetylacetonate; Transition metals; Ter- Ruthenium; Iridium; Sol—gel; Isomerization (Sertchook, H. penic olefins (Fdil, N. (108) 15) (108) 153) Palladacycles Ring-opening Palladium; Acetylenes; Aryl halides; CC-coupling (Herrmann, Polyoxomolybdate; Chiral; Metathesis; Polymerization; Nor- W.A. (108) 51) bornene; Molybdenum (McCann, M. (108) 23) Palladium Ruthenium Palladacycles; Acetylenes; Aryl halides; CC-coupling (Herr- Polymeric phosphine; Phosphine; Recyclable catalyst; Enol mann, W.A. (108) 51) diester; Alkyne activation (Lavastre, O. (108) 29) Organic support; Polymer networks; Interpenetrating polymer Hydrogenation; Unsaturated aldehydes; Aldehydes; Bimetallic networks; Supported catalysts (Primavera, A. (108) 131) catalysts (Neri, G. (108) 41) Palladium acetate Methanol; Dehydrogenation; Phosphine-derivative complexes; Arenes; Acetoxylation; Iodosyl acetate; Nuclear oxidation Ligand effect (Yang, L.-C. (108) 87) (Yoneyama, T. (108) 35) Monometallic catalysts; Bimetallic catalysts; Structural proper- Palladium clusters ties (Sanchez Sierra, M.C. (108) 95) Oxidative carbonylation; Conjugated reactions; Phenol; Ni- Hydrogenation; Aromatic substrates; Selectivity; Carbonyl trobenzene; Dipheny!l carbonate (Moiseev, I.1. (108) 77) group (Kluson, P. (108) 107) Phenol Rhodium; Iridium; Sol—gel; Isomerization (Sertchook, H. (108) Palladium clusters; Oxidative carbonylation; Conjugated reac- 153) tions; Nitrobenzene; Dipheny! carbonate (Moiseev, L.1. (108) Tin; Boron; Methyl oleate hydrogenation; Hydrogenation; 77) Oleyl alcohol; Transesterification (Pouilloux, Y. (108) 161) Phosphine Selectivity Ruthenium; Polymeric phosphine; Recyclable catalyst; Enol Ruthenium; Hydrogenation; Aromatic substrates; Carbonyl diester; Alkyne activation (Lavastre, O. (108) 29) group (Kluson, P. (108) 107) Phosphine-derivative complexes Silica Ruthenium; Methanol; Dehydrogenation; Ligand effect (Yang, Implantation; Carbamate; Tin; N,N-Dialkylcarbamates (Abis, L.-C. (108) 87) L. (108) 113) Pillared materials Sol—gel Chromia; Alumina; Zirconium phosphate; Acidity (Jiménez- Ruthenium; Rhodium; Iridium; Isomerization (Sertchook, H. Lépez, A. (108) 177) (108) 153) 190 Subject Index Structural properties Tin Monometallic catalysts; Ruthenium; Bimetallic catalysts Implantation; Carbamate; Silica; N,N-Dialkylcarbamates (Sanchez Sierra, M.C. (108) 95) (Abis, L. (108) 113) Sulphoxidation Ruthenium; Boron; Methyl! oleate hydrogenation; Hydrogena- B-Ketoesterates; Heterogeneous reactions; Cobalt; Supported tion; Oley! alcohol; Transesterification (Pouilloux, Y. (108) catalysts; Polymer-supported catalysis (Dell’ Anna, M.M. (108) 161) 57) Titanium Sulphuric acid Fluorination; Tetrachlorethene; Lewis acid; Chlorides; Anti- Kinetics; Mechanism; Electron transfer; Ascorbic acid; Iron; mony (Brunet, S. (108) 11) Micelles (Lakshmi, P.J. (108) 63) Titanocene Superacid Polymerization; Acetylene; Alkyne complexes (Ohff, A. (108) Molybdenum(VI) oxide; Zirconia; Raman spectra; Quantita- 119) tive Raman analysis; Surface states (Zhao, B. (108) 167) Transesterification Supported catalysts Ruthenium; Tin; Boron; Methyl oleate hydrogenation; Hydro- Sulphoxidation; B-Ketoesterates; Heterogeneous reactions; genation; Oley! alcohol (Pouilloux, Y. (108) 161) Cobalt; Polymer-supported catalysis (Dell’ Anna, M.M. (108) Transition metals 57) Epoxidation; Nickel; Acetylacetonate; Terpenic olefins; Oxy- Organic support; Polymer networks; Palladium; Interpenetrat- gen (Fdil, N. (108) 15) ing polymer networks (Primavera, A. (108) 131) Unsaturated aldehydes Surface states Hydrogenation; Aldehydes; Ruthenium; Bimetallic catalysts Superacid; Molybdenum(VI) oxide; Zirconia; Raman spectra; (Neri, G. (108) 41) Quantitative Raman analysis (Zhao, B. (108) 167) Zirconia Terpenic olefins Superacid; Molybdenum(VI) oxide; Raman spectra; Quantita- Epoxidation; Nickel; Acetylacetonate; Transition metals; Oxy- tive Raman analysis; Surface states (Zhao, B. (108) 167) gen (Fdil, N. (108) 15) Zirconium phosphate Tetrachlorethene Pillared materials; Chromia; Alumina; Acidity (Jiménez-Lépez, Fluorination; Lewis acid; Chlorides; Antimony; Titanium A. (108) 177) (Brunet, S. (108) 11)

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