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Platinum Metals Rev., 1997, 41, (4), 203

Subject Index to Volume 41

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a = abstract
Acetone, from CO2 reduction, at Ru electrodes, a 143
Acetylenes, dimerisation, by Na2PtCl6.6H2O, a 193
   electrocatalytic hydrogenation, a 43
   polymerisation, using [Pd2(μ-X)2(PBu’3)2], a 89
   semihydrogenation, over Pd(OAc)2, a 92
Alcohols, chlorophenols, degradation with Pd/Fe2
   ethyl, catalytic oxidation by giant Pd clusters, a 46
     from CO2 + H2, over Rh10Se166
   methyl, carbonylation, by Rh-PVP colloid, a 145
       with Ir catalysts8
     from CO2 reduction, at Ru electrodes, a 143
     oxidation, by Ru-Pt alloy electrodes for DMFCs, a 47
       on Pt fuel cell electrodes, a 194
     sensor, fluorescence lifetime-based, a 144
   unsaturated, synthesis, using B-promoted Ir catalyst176
Aldehydes, detection, a 44
Aldol Reactions, using RuH2(PPh3)4, a 47
Alfred Werner, history34
Alkanes, oxidation, by Pd/CuCl2, a 193
     photocatalytic, by trans -[OsO2(CN)2(dpphen)], a 192
Alkenes, hydrogenation, using RhCl3.xH2O, Pd(OAc)2, a 92
     using TiO2/Pt/silicalite-l composites, a 92
   oxidation, by RuL(CO)(EtOH), a 93
Alkynes, coupling, using Pd(OAc)2, a 93
   hydration, by HPtCl(CO)2, a 93
   hydrogenation, using RhCl3.xH2O, Pd(OAc)2, a 92
   terminal, dimerisation, by Ru complexes, a 94
Allyl Acetals, isomerisation, a 47
Allyl Alcohol, hydroformylation, by Rh/zeolites132
Allyl Ethers, isomerisation, a 47
Allylic Alkylation, acyclic, using [Ir(cod)Cl]2, a 146
Amidation, amines using RuH2(PPh3)4, a 47
Ammonia, synthesis, over Ru-BaO/active C, a 193
Anilines, chloro-substituted, using B-promoted Ir176
Arenes, production, from cycloalkanes, Ir catalysed, a 94
N -Arylhydroxylamines, synthesis, using B-Ir/C176
Azoxybenzenes, synthesis, using B-Ir/C176
Ballard, development of PEMFCs102, 171
Benzene, 1,3,5-substituted, Pd catalysed, synthesis, a 145
Bertrand Pelletier, history86
Book Reviews, “Catalysis of Organic Reactions”, Proc. 16th conf. on Catalysis of Organic Reactions, Atlanta, Georgia, 199622
   “Chemistry of Precious Metals”164
   “Metallurgy and Mechanical Behaviour of Iridium”85
   “Synthetic Coordination Chemistry: Principles and Practice”79
p -Bromotoluene, hydrogenolysis, by Pd colloids, a 193
1,3-Butadiene, hydrogenation, by Pd50Cu50, a 145
   over Pt3Ge, Pt2Ge, PtGe, a 192
Cadmium, in water, detection11
Cancer, drugs, a 47, 147
Canola Oil, giving hydrocarbons, over Pt/HZSM-5, a 192
Capacitors, thin-film, SrRuO3/Pb(Zr, Ti)O3SrRuO3, a 194
Carbon Oxides, CO2, reaction with H2, over Rh10Se166
     reduction, at Ru electrodes, a 143
CO, chemisorption on Cu3Pt(111) alloy surfaces, a 41
   electrooxidation, by PtRu alloy colloids, a 146
   oxidation, over Pd/zeolite, a 193
Carbonylation, ethyl 2-phenylethynylbenzoate, a 193
   MeOH, by Rh-PVP colloid, a 145
   to acetic acid using Ir and Rh catalysts8
   using Ir, “Cativa Process”9
   Rh(PPh3)3Cl, Ru(PPh3)3,Cl2, mechanism, a 45
Carboplatin, detection at low concentrations in vivo, a 47
Carboxylic Acids, β,γ-unsaturated, hydrognation, a 47
Cassini, mission to Saturn154
Catalysis, see also Photocatalysis
   heterogeneous, a 45, 92–93, 145, 192–193
   homogeneous, a 46–47, 93–94, 145–146, 193–194
Catalysts, automotive, 3-way, at the SAE conference76
   at Fourth International Congress on Catalysis and Automotive Pollution Control128
   manufacture, by Johnson Matthey, in Malaysia114
   pgm, for heat and power cogeneration unit64
Catalysts, Iridium, B-Ir/C, hydrogenation of organics176
Iridium Complexes, [(COD)Ir(LL)]ClO4, [(COD)IrCl]2, phenylacetylene polymerisation, a 47
   [Ir(CO)2(I)2] for MeOH carbonylation8
   [Ir(cod)Cl]2, with P ligands, for allylic alkylation, a 146
   IrH2[C6H3-2,6-(CH2PBut 2)2],dehydrogenation of cycloalkanes, a 94
   Ir(I) chiral phosphanodihydrooxazoles, for inline hydrogenation, a 194
Osmium Complexes, trans -[OsO2(CN)2(dpphen)], photocatalytic alkane oxidation, a 192
Palladium, colloids, Heck reactions, a 46
     hydrogenolysis of p -bromotoluene, a 193
   giant clusters, oxidation of EtOH, a 46
   for Heck reactions11, 23, 163
   Pd metallic, nitrobenzene hydrogenation, a 45
   Pd nanoparticles, cyclohexene hydrogenation, a 145
   Pd50Cu50, 1,3-butadiene hydrogenation, a 145
   Pd-Cu/KL-zeolites, properties, a 45
   Pd-Ni-H/Y-type zeolites, hydrocracking, a 45
   Pd/CuCl2, oxidation of alkanes, a 193
   Pd/Fe, for decontamination of ground water2
   Pd/Ni, colloids, for hydrogenation of nitrobenzene7
   Pd/polymer electrodes, acetylene hydrogenation, a 43
   Pd/zeolite, oxidation of CO, hydrocarbons, a 193
   PdMo/HY zeolites, for hydrodesulfurisation, a 92
   PtPd/H-Beta, PtPd/USY zeolites, isomerisation and hydrocracking of heptane, a 145
Palladium Complexes, C60[Pd(OAc)2(PPh3)]3, for hydrogenation, a 193
   [Pd2(μ-I)2(PBu13)2], acetylene polymerisation, a 89
   PdCl2(PPh3)2/PPh3, electroreduction of propargyl acetates, a 43
   Pd(dba)2/PPh3, trimerisation of 1,3-diynes, a 145
   Pd(OAc)2, alkyne coupling, conjugated enynes, a 93
     hydrogenation, alkenes, alkynes, nitrobenzene, a 92
     polyketone synthesis10
     semihydrogenation of acetylenes, a 92
   Pd(PPh3)4,2-cyclohexenylsilane cross-coupling, a 93
   Pd(PPh3)4/K3PO4/DMF, Suzuki couplings, a 93
Platinum, electrodes, nitrate reduction, a 43
   Langmuir-Blodgett films, H2 evolution, a 43
   nanoparticles, cyclohexene hydrogenation, a 145
   Pt colloids, [Pt3(CO)6]n 2−, on C black, fuel cells, a 94
   Pt wire, for CH4 ignition, a 144
   Pt-Ce/KL, Pt/CeKL zeolites, reforming activity, a 45
   Pt-Sn/γ-Al2O3, for conversion of n -hexane, a 145
   Pt-TiO2, photocatalytic H2O decomposition, a 145
   Pt/Al2O3, for NO reduction, a 92, 192
   Pt/γ-Al2O3 membranes, hydrogenation of p -chloronitrobenzene, a 145
   Pt/HZSM-5, hydrocarbons from canola oil, a 192
   Pt/SnO2, Pt/SnO2/RuO2, H2 photoproduction, a 91
   Pt/TiO2, PtO2/CdS, hydrogenation of Schifi bases, a 91
   Pt/TiO2, with silicalite-1, alkene hydrogenation, a 92
   Pt/Y-zeolite, hydrogenation of crude oil fractions32
   Pt/zeolites, for reforming n -hexane, a 192
   Pt/ZSM-5, for NOx reduction75
   PtPd/H-Beta, PtPd/USY zeolites, for isomerisation and hydrocracking of heptane, a 145
Platinum Alloys, Pt-Sn(IMP), fuel cells, a 94
Platinum Complexes, cis -[(PPh3)2Pt(SH)2], for removal of S from H2S32
   HPtCl(CO)2, for alkyne hydration, a 93
   Karstedt’s catalyst, for hydrosilylation66
   Na2PtCl6.6H2O, acetylene dimerisation, a 193
   [(PPh3)2PtS3O], for hydrodesulfurisation32
   Pt(CH3COO)4, hydrogenation of hydrocarbons, a 46
   Pt(PPh3)4, Pt(dba)2, diboration of alka-1,3-dienes, a 46
   (S3-ethano-9)PtCl4, polymerisation of ethylene, a 46
Platinum Compounds, Pt3Ge, Pt2Ge, PtGe, for hydrogenation of 1,3-butadiene, a 192
Rhodium, Rh10Se, for EtOH synthesis166
   Rh-PEVV, for olefin biphasic hydroformylation, a 94
   Rh-PVP colloid, for MeOH carbonylation, a 145
   zeolite-encapsulated, for hydroformylation132
Rhodium Complexes, [2.2]PHANEPHOS Rh+OTf,
   enantioselective hydrogenation, reduction165
   [(COD)Rh(LL)]ClO4, [(COD)RhCl]2, for polymerisation of phenylacetylene, a 47
   Rh2 complex in DMSO, hexene isomerisation, a 93
   hydroformylation of olefins, a 46
   Na2[Rh12(CO)30], hydroformylation, of 2,4,4-trimethyl,1-pentene, a 94
   Rh6(CO)16, carbonylation of ethyl 2-phenyIethynylbenzoate, a 193
     RhCl3.xH2O, hydrogenation of alkenes, alkynes, a 92
   RhCl(PPh3)3, RhH(PPh3)4, hydrogenation of acrylonitrile-butadiene copolymers, a 93
   Rh(CO)2Acac, for hydroformylation, a 94
   [Rh(CO)2(I)2], for MeOH carbonylation8
   [(RhCp*)2(μ-CH2)2(CH3CN)2](BF4)2, [(RhCp*)2(μ-CH2)2(CO)2](BF4)2, ethyl acrylate dimerisation, a 146
   Rh(II) acetate, cyclisations, cycloadditions, a 46
   (S3-ethano-9)RhCl3, polymerisation of ethylene, a 46
   [(sulphos)Rh(cod)], hydrogenation, hydrogenolysis, a 193
Ruthenium, fullerene-based, from Ru3(CO)12, 2-cyclohexenone hydrogenation, a 92
   Pt/SnO2/RuO2, H2 photoproduction, a 91
   Ru-BaO/active C, for NH3 synthesis, a 193
   RuS2 clusters in Y zeolite, tetralin hydrogenation, a 93
Ruthenium Complexes, (η6-naphthalene)(η4-COD)-Ru(0), isomerisation of acetals, ethers, a 47
   (PPh3)3RuCl2, [(C4Ph4COHOCC4Ph4)(μ-H)]-[(CO)4Ru2], oxidation of steroids, a 47
   RuCl2(arene)(PR3) precursors, ROMP of olefins, a 194
   RuCl2(PPh3)3, indole synthesis, a 146
   methyl methacrylate polymerisation, a 146
   olefin hydrogenation, a 146
   RuH2(H2)2(PCy3)2, C6H6, thermal decomposition, a 90
   RuH2(PPh3)4, hydration, amidation, a 47
   RuL(CO)(EtOH), alkene oxidation, a 93
   Ru(OCOCH3)2[(S )-H8-BINAP], hydrogenation of carboxylic acids, a 47
   Ru(TPP)CO, Ru(TMP)CO, Ru(TDCIPP)CO, oxidation of steroids, a 146
   RuTp(PPh3)2Cl, RuTp(PPh3)(py)Cl, RuTp(PPh3)2H, dimerisation of terminal alkynes, a 94
“Cativa Process”, for MeOH carbonylation using Ir9
CD-ROM Review, “Database of Palladium Chemistry: Reactions, Catalytic Cycles and Chemical Parameters’141
Chemisorption, CO on Cu3Pt(111) alloy surfaces, a 41
Chlor-alkali, production54
p -Chloronitrobenzene, hydrogenation, on Pt/γ-Al2O3, a 145
Chlorophenols, degradation with Pd/Fe2
Chromium, detection, in environmental samples, a 192
Clusters, Na2[Rh12(CO)30], hydroformylation, of 2,4,4-trimethyl,l-pentene, a 94
   Pd catalysts, oxidation of EtOH, a 46
   Pd, nanostructured, stabilised, self-assembly on C, a 89
   Pd/Ni, as hydrogenation catalysts7
   [Pt3(CO)6]n 2− on C black, for fuel cells, a 94
   RuS2, in Y zeolite, hydrogenation of tetralin, a 93
Coatings, see also Electrodeposition Pd, for detection of organo Hg and Se, a 45
   Pd, by OMCVD, a 44
   Pt, deposition, from Q-salt electroplating baths21
   electrodeposition, onto ceramic Ebonex, a 144
   Pt, RuO2, RuO2/TiO2, IrO2, TiO2/RuO2/AlSbO454
   Pt-Al, on superalloys, corrosion behaviour, a 95
Cold Start, automotive, SAE conference76
Colloids, Pd catalysts, Heck reactions, a 46
   Pd, hydrogenolysis of p -bromotoluene, a 193
   Pd/Ni, PVP protected, hydrogenation catalysts7
   Pt, on C black, for fuel cells, a 94
   end products of hydrosilylation66
   nanoparticles, synthesis, a 41
   particles, electrodes, PEC solar cells, a 44
   Pt, Pd, for cyclohexene hydrogenation, a 145
   Pt-carbonyl, preparation, a 190
   Pt-Pd polymer protected, preparation, a 190
   PtRu alloys, for CO, CO/H2 electrooxidation, a 146
   Rh-PVP, for MeOH carbonylation, a 145
Conferences, 5th Grove Fuel Cell Symposium, London, 22–25 September, 199711, 171
   5th International Symposium on Hydrogen in Metals, Les Diablerets, Switzerland, 23–30 August, 199633
   First Anglo-Dutch Symposium, Sheffield, 18 September, 19968
   Fourth International Congress on Catalysis and Automotive Pollution Control, Belgium, 9–11 April, 1997128
   HYPOTHESIS-II, Grimstad, Norway, 18–22 August, 1997163
   Pd and Pd Alloy Membranes Applied to Hydrogen Permeation and Reaction, Talloires, France, 19–20 August, 199633
   SAE, Detroit, U.S.A., 24–27 February, 199776
Corrosion, Pt-Al coatings on superalloys, a 95
   Pt-Ti alloys, a 95
Corrosion Protection, a 95
Crystallography, properties, of Pt12
   of Rh184
Cyclisation, cycloaddition, Rh(II) acetate catalysed, a 46
Cycloaddition, cyclisation, Rh(II) acetate catalysed, a 46
Cyclohexane, synthesis, using C60[Pd(OAc)2(PPh3)]3, a 193
   from cyclohexene, over Pt, Pd colloids, a 145
Cyclohexene, hydrogenation, by Pt, Pd colloids, a 145
   using C60[Pd(OAc)2(PPh3)]3 a 193
Dechlorination, hydrocarbons using palladised iron2
Dehydrogenation, cycloalkanes, by IrH2[C6H3-2,6-(CH2PBut2)2], a 94
Dental, Pd in Ag-Sn-Cu dental amalgam, a 147
Deposition, see also Electrodeposition
   CVD, Pd thin gas-tight membranes, a 45
   OMCVD, Pd thin films, a 44
   Pd microparticles on polymer film electrodes, a 43
   pulsed laser, conductive SrRuO3 thin films, a 44
   SrTi1−xRuxO3−8 thin films, on SrTiO3, a 91
Detectors, see Sensors
Diboration, alka-1,3-dienes using Pt(0) complexes, a 46
Diesel Engines, pollution, at the SAE conference76
   emissions, at Fourth International Congress on Catalysis and Automotive Pollution Control128
   NOx reduction, by Pt/ZSM-5 catalyst75
23-Dihydro[b ]benzothiophene, production, by hydrogenation, over [(sulphos)Rh(cod)], a 193
Dimerisation, acetylene, by Na2PtCl6.6H2O, a 193
   ethyl acrylate, by dinuclear Rh complexes, a 146
   terminal alkynes, by Ru complexes, a 94
Diphenylacetylene, hydrogenation, using C60[Pd(OAc)2(PPh3)]3, a 193
1,2-Diphenylethane, by hydrogenation, using C60[Pd(OAc)2(PPh3)]3, a 193
1,3-Diynes, Pd catalysed trimerisation, a 145
DNA, determination, a 194
Electrical Connections, between Pt wires, a 44
Electrical Contacts, Au/Ge/Pd/GaAs, Au/Ti/Ge/Pd/GaAs, Au/Mo/Ti/Ge/Pd/GaAs, a 95
   ohmic contacts, Pd-Ge based, effects of Ti-Pt or Ti-Pt-Au capping layers, a 147
   Pd/Zn/Pd, to p -type GaP, a 194
   Pt/Ti/Au, with minimised contact resistance, a 147
Electrocatalysis, aliphatic aldehydes, by Pt-Pd alloy electrode, amperometric detection, a 44
Electrocatalysts, see Electrodes, Fuel Cells and Catalysts
Electrochemistry,, a 43, 90, 143, 191
   noble metal electrodes, applications54
   treatment of low level nuclear wastes, a 144
Electrocrystallisation, between Pt wires, a 44
   of [Pt(en)2][PtCl2(en)2](ClO4)4, a 90
Electrodeposition, see also Coatings and Deposition Electroless Plating, a 44, 91, 144
   Pt, from Pt 5Q plating bath, onto ceramic Ebonex, a 144
     from Q-salt baths21
     nanoparticles, on MeOH fuel cell electrodes, a 194
Electrodes, anodes, dimensionally stable53
     platinised Ti, for oxidations, electrosyntheses54
     Pt-Ru/C, Pt/C, for DMFCs, a94
     RuO2, RuO2/TiO2, IrO2, TiO2/RuO2/AlSbO454
     Ti/IrO2-Ta2O5, properties, a 43
   Bi3Ru3O11, for oxidations, a 143
   cathodes, Pt-W oxide-based, for PAFCs, a95
   Pt/Ru coated, in chlor-alkali industry54
   film-coated, C-fibre + Pd, for hydrogenations, a 191
   Ir, microelectrode, for trace metal detection11
   Ir-based Hg, for measuring trace Cr and U, a 192
   Pd, polymer film, for acetylene hydrogenation, a 43
   for PEMFCs, comparisons102
     with ultra low Pt loading, a146
   photo, n -TiO2/Ti SC-SEP/Pt, in solar cell, a143
   photocathodes, Pd thin films, for vacuum gauge, a 45
     Pt-coated p -Si, H2 evolution, a 44
   poly(calixarene-[Ru(bpy)3]2+) modified, a 90
   Pt, dual-disk microelectrode, properties, a 44
     for glucose detection, a 91
     loaded, in PEMFCs102
     microdisk, nitrite determination, a 91
     particle modified n -Si, PEC solar cells, a 44
   Pt alloys/C, in H3PO4, properties, a 43
   Pt, Au, catalytic nitrate reduction, a 43
   Pt, Pt/polymer, H2 oxidation, kinetics, a 90
   Pt, Pt/Ru, gas diffusion, for PEMFCs, DMFCs54
   Pt-Pd/C, detection of aldehydes, a 44
   Pt-Ru/C, MeOH oxidation, DMFCs, a 47
   Pt/Ti, bottom electrodes, for PZT capacitors, a 147
   Pt/Ti, three dimensional54
   Pt/YSZ, Pt/CeO2/YSZ, for NO reduction, a 143
   PtRu colloids, for fuel cells, a 146
   rhodanised graphite, H2 adsorption and evolution, a 90
   RuO2-coated Ti, for O2 reduction, a 143
   RuOx, modified, for CO2 reduction, a 143
   SrRuO3, polycrystalline, in thin film capacitors, a 194
Electroless Plating, see also Electrodeposition Pd layers from Pd acetylacetonate, laser-assisted7
Emission, visible light from Pt/Si contacts, a 43
Energy, electronic, transfer, Ru→Os, in (ttp)Ru(tpy-ph-bco-ph-tpy)Os(tpp)4+, a 90
Engines, for combined heat and power unit64
Esterification, alcohols with nitriles, RuH2PPh3)4, a 47
Ethyl Acrylate, dimerisation, by dinuclear Rh, a 146
Ethyl 2-phenylethynylbenzoate, carbonylation, a 193
Ethylene, polymerisation, a 46
2-Ethylthiophenol, by hydrogenolysis, preparation over [(sulphos)Rh(cod)], a 193
Films, see also Thin Films
poly[N -(5-hydroxypentyl)pyrrole]-coated C-fibre + Pd electrode, for hydrogenations, a 191
   Pt, as bottom electrodes for PZT capacitors, a 147
   Pt doped TiO2, photocatalytic activity, a 143
   Ru(bpy)32+ doped silica coating films, fluorescence, a 143
Fischer-Tropsch Reaction, on Rh and Ru surfaces9
Fluorescence, in MeOH sensor, a 144
   in Ru(bpy)32+ doped silica coating films, a 143
   in thin film O2 sensors, a 92
Fuel, plutonia, for Cassini spacecraft154
Fuel Cells, a 47, 94–95, 146, 194
   5th Grove Fuel Cell Symposium11, 171
   catalysts, [Pt3(CO)6]n 2− or Pt colloids, on C black, a 94
   DMFCs, Pt-Ru alloy electrodes, a 47
     using Pt-Ru/C and Pt/C catalysts, a 94
   electrodes, catalysts, for PEMFCs, DMFCs54
     MeOH oxidation, with Pt nanoparticles, a 194
     for PAFCs, a 43
   HYPOTHESIS-II163
   PEMFCs, progress in design, cost reduction102
     with ultra low Pt loaded electrodes, a 146
   Pt-W electrocatalyst, PAFC cathodes, a 95
   Pt-Sn(IMP) alloy for, a 94
Fullerenes, C60, C70, with organometallic hydrides, a 42
   complexes, [Pt(η2-C60)(L-L)], a 142
   supports for Pd, Ru catalysts, a 92, 193
Glucose, detection, a 91
Guanine, oxidation, in DNA, a 144
Hall Effect, in CaRuO3, SrRuO3 thin films, a 41
   in Sr2RuO4 superconductor, a 41
Heck Reactions, Pd catalysed11, 23
   Pd colloid catalysed, a 46
   Pd on porous glass catalysts163
Heptane, isomerisation, hydrocracking, a 145
Hex-1-ene, hydrogenation, by C60[Pd(OAc)2PPh3)]3, a 193
Hexane, production, using C60[Pd(OAc)2(PPh3)]3, a 193
n -Hexane, conversion, over Pt-Sn/γ-Al2O3, a 145
   reforming, over Pt/zeolite catalysts, a 192
1-Hexene, hydroformylation, by Rh/zeolites132
Hexene, isomerisation, by Rh2 complex in DMSO, a 93
History, Alfred Werner’s pgm research34
   Bertrand Pelletier, preparation of malleable Pt86
HIV, protease inhibitor, Rh catalyst for165
Humidity, sensor, a 92
Hydration, alkynes, by HPtCl(CO)2, a 93
   nitriles using RuH2(PPh3)4, a 47
Hydrocarbons, dechlorination with Pd/Fe2
   from canola oil, using Pt/HZSM-5, a 192
   gas, sensors for, using Schottky diodes, a 194
   hydrogenation, catalysed by Pt complex, a 46
   oxidation, over Pd/zeolite, a 193
   traps, SAE conference76
Hydrocracking, DMDBT, a 45
   heptane, over PtPd/H-Beta, PtPd/USY zeolites, a 145
Hydrodesulfurisation, crude oil8
   dibenzothiophene and diesel oil, over PdMo/HY zeolite catalysts, a 92
Hydroformylation, 1-hexene, styrene, allyl alcohol, by zeolite-encapsulated Rh catalysts132
   2,4,4-trimethyl,1-pentene, by Na2[Rh12(CO)30], a 94
   olefins, by Rh complex catalysts, a 46
     by Rh-PEVV, a 94
   reactions, book review23
   using Rh(CO)2Acac, with phosphoramidite ligands, a 94
Hydrogen, absorption on Pd-Y alloys, a 41
   activation, at trans -Ir(CO)L2X, a 190
   at HYPOTHESIS-II163
   electrocatalysis, adsorption, evolution, on Rh/C, a 90
   evolution, photoinduced, at platinised LB films, a 43
     at Pt-coated p -Si photocathodes, a 44
     at Pt-loaded porphyrin films, a 191
   H2/CO, electrooxidation, at Pt75Mo25, a 143
   oxidation, at Pt, Pt/polymer, electrodes, a 90
   permeation, in Pd and Pd alloys33
   photoproduction, photoelectrochemical solar cell, a 143
     by Pt/SnO2, Pt/SnO2/RuO2, a 91
     by [Pt(bpy)2](NO3)2, poly(2,2’-bipyridine-5,5’-diyl)113
     using H2O-insoluble, polymer-bound Ru(II) complexes and bis(2,2’-bipyridine)Pt(II), a 91
   sensors, Pd/SiC, Pd/SiO2/SiC Schottky diodes, a 194
Hydrogenation, acetylenes, on Pd electrodes, a 43
     over Pd(OAc)2, a 92
   acrylonitrile-butadiene, by Rh complexes, a 93
   alkenes, acetylenes, by C60[Pd(OAc)2(PPh3)]3, a193
   alkenes, dienes, alkynes, nitrobenzene, a 92
   alkenes, using TiO2/Pt/silicalite-l composites, a 92
   benzo[b ]thiophene, over [(sulphos)Rh(cod)], a 193
   1,3-butadiene, by Pd50Cu50, a 145
     over Pt3Ge, Pt2Ge, PtGe, a 192
   carboxylic acids, using Ru complex catalysts, a 47
   characteristics, of TiFe1−xPdx, alloys, a 190
   crude oil, using Pt32
   cyclohexene, by Pt, Pd colloids, a 145
   2-cyclohexenone, by fullerene-based Ru catalysts, a 92
   dehydroamino acid methyl esters, enantioselective165
   hydrocarbons, using Pt complex catalysts, a 46
   imines, by chiral Ir(I) complexes, a 194
   nitrobenzene, p -cresol by Pd, a 45
   nitrobenzene, using Pd/Ni colloids7
   olefins, using RuCl2(PPh3)3, a 146
   organic compounds, on Pd/C-fibre electrode, a 191
   using B-promoted Ir/C176
   p -chloronitrobenzene, Pt/γ-Al2O3 membranes, a 145
   reactions, book review22
   Schiff bases, photocatalytic, by TiO2-Pt, CdS/PtO2, a 91
   tetralin, by RuS2 clusters in Y zeolite, a 93
Hydrogenolysis, benzo[b ]thiophene, a 193
   p -bromotoluene, by Pd colloids, a 193
Hydrosilylation, using Pt catalysts66
Imines, hydrogenation, by chiral Ir(I) complexes, a 194
Indeno[1,2-c]isocoumarin, preparation by carbonylation, over Rh6(CO)16, a 193
Indoles, synthesis, using RuCl2(PPh3)3, a 146
Iridium, Ir/Hg electrodes, trace Cr, U, detection, a 192
   IrO2, electrode coating54
   metallurgy, book review85
   microdetector arrays, trace metal detection in water11
   Ti/IrO2-Ta2O5 anodes, properties, a 43
Iridium Alloys, DOP-26 Ir, encapsulating plutonia154
   lrxCo1−xSb2, preparation, properties, a 41
Iridium Complexes, HIr(CO)(PPh3)3 HIr(COD)(PPh3)2, reactions with fullerenes, a 42
   I + IrCl62−, reaction kinetics, a 89
   IrCl62−, in MeOH matrices, photoproperties, a 191
   [Ir(CO)6]3+, [Ir(CO)5Cl]2+, spectroscopic properties, a 42
   trans -Ir(CO)L2X, H2 activation, a 190
Isomerisation, allyl ethers, allyl acetals, a 47
   heptane, over PtPd/H-Beta, PtPd/USY zeolites, a 145
   hexene, by dihydridorhodium complex, a 93
Johnson Matthey, catalysts, for heat/power unit64
   JM1226, JM6245, NO scavengers, a 95
   new autocatalyst manufacturing plant in Malaysia114
   “Platinum 1997”,131
Lactate, detection, using [Os(bpy)2(PVP)10Cl]Cl, a 192
Langmuir-Blodgett Films, platinised, H2 evolution, a 43
   Pt colloid particles, on electrodes, PEC solar cells, a 44
   Pt-loaded, for H2 evolution, a 191
Lead, traces in water, detection11
Ludwig Mond Lectureship8
Luminescence, of pgm complexes, optical O2 sensors115
   of porous anodised Pt/Si contacts, a 43
   in Pt(dpp)X2, a 42
Macrocycles, self-assembly from (en)Pd(NO3)2, a 42
Magnetism, in (Co1−xNix)/Pd multilayers, a 147
   in CuRh2(S1−xTex)4, superconductivity, a 41
   interlayer coupling in Co/Rh/Co sandwiches, a 190
   properties of Fe-Pt permanent magnets, a 190
Medical, HIV protease inhibitor, Rh catalyst for165
   K[Ru(Hedta)Cl], JM1226, Ru(Hedta)(H2O), JM6245, as NO scavengers, a 95
   Pd-TMPyP, for DNA determination, a 194
   Pt(II), Pt(IV) cisplatin analogues, antitumour, a 147
Medical Uses, a 47, 95, 147, 194
Membranes, Pd, Pd alloys, for gas permeation33
   Pd, Pd-Ni, on porous substrates, by MOCVD, a 144
   Pd, thin, gas-tight, by CVD, a 45
   for PEMFCs102
   Pt/γ-Al2O3, hydrogenation of p -chloronitrobenzene, a 145
Metallisation, insulating materials by Pd(acac)27
Methane, ignition, by catalytic Pt wire, a 144
   oxidation, by Pd/CuCl2, a 193
Methyl Methacrylate, polymerisation, a 146
Michael Reactions, using RuH2 (PPh3)4 a 47
Molecular Wires, {[Rh(MeCN)4](BF4)1.5}∞63
Nanomaterials, self-assembly on C surfaces, a 89
   Pd clusters on C, films, superlattices, a 89
   Pt filled C nanotubes127
   RhCl3, filled C nanotubes, a 95
Nanoparticles, Pt, cuboctahedral, icosahedral, a 41
     monodispersed, polymer protected80
     using liquid-crystalline phase template170
   Pt, Pd, colloids, for cyclohexene hydrogenation, a 145
   Pt-Pd, polymer protected bimetallic colloids, a 190
Nitrate, adsorption, reduction, at Pt, Au electrodes, a 43
Nitrite, in human saliva, detection, a 91
Nitrogen Oxides, NO, in body scavenging, a 95
   from nitrate reduction at Pt and Au electrodes, a 43
   reduction, at Pt/YSZ, Pt/CeO2/YSZ electrodes, a 143
     by CO over Pt/Al2O3 catalyst, a 92
     over Pt/Al2O3, a 192
NOx, reduction, at Fourth Int. Congr. on Catalysis and Automotive Pollution Control128
   at the SAE conference76
   by Pt/ZSM-5 catalyst75
Nonlinear Optics, σ-acceptor aryl-enynyl Ru, a 89
Nuclear Wastes, electrochemical treatment, a 144
Olefins, hydroformylation, by Rh complex, a 46
   by Rh-PEVV, a 94
   hydrogenation, using RuCl2(PPh3)3, a 146
   polymerisation, by RuCl2(arene)(PR3) precursors, a 194
Optical Switching, in Pd33
Osmium, Os-Zr, thermodynamic properties, a 41
Osmium Complexes, [Os(bpy)2(PVP)10Cl]Cl, for detection of lactate, a 192
   [Os(bpy)3]2+, photoproperties, a 191
   [Os(CO)3,Cl(OH)]2, [Os(CO)3,(OH)2]x, a 42
   Os(II) diimine, in crystals, photoproperties, a 192
   trans -[OsO2(CN)2(dpphen)], alkane oxidation, a 192
   (ttp)Ru(tpy-ph-bco-ph-tpy)Os(tpp)4+, Ru→Os energy transfer, a 90
Oxidation, alkanes, by trans -[OsO2(CN)2(dpphen)], a 192
   alkenes, by RuL(CO)(EtOH) in MCM-41, a 93
   CO, hydrocarbons, over Pd/zeolite, a 193
   electro, CO and CO/H2, by Pt-Sn(IMP), a 94
     CO, CO/H2, by PtRu alloy colloids, a 146
     H2/CO, at Pt75Mo25 alloy surface, a 143
   guanine, in DNA, by Ru(phen)2(dppz)3+, a 144
   H2, at Pt, Pt/polymer, electrodes, a 90
   MeOH, at Ru-Pt electrodes, in DMFCs, a 47
     on Pt fuel cell electrodes, a 194
   methane, alkanes, by Pd/CuCl2, a 193
   steroids, by Ru complex catalysts, a 47
     by Ru porphyrins, a 146
   using Bi3Ru3O11 electrodes, a 143
Oxygen, electroreduction, at thin Pt films, a 191
   reduction, at RuO2-coated Ti electrodes, a 143
   sensors92, 115
Palladium, addition to dental amalgam, a 147
   in Au/Ge/Pd/GaAs, Au/Ti/Ge/Pd/GaAs, Au/Mo/Ti/Ge/Pd/GaAs, ohmic contacts, a 95
   clusters, self-assembly on C surfaces, a 89
   electroless deposition7
   membranes, fabrication by CVD, a 45
     hydrogen permeation33
   microparticles, in film-coated C-fibre electrode, a 191
   Nd-Pd-Ru, ternary phase diagram, a 142
   Pd, Pd-Cu, particles, on MgO microcubes, a 142
   Pd, Pd-Ni, membranes, on porous substrates, a 144
   Pd-Ge based ohmic contacts, a 147
   Pd-Pt polymer protected bimetallic colloids, a 190
   Pd-TMPyP, for DNA determination, a 194
   Pd/(Co1−xNix) multilayers, magnetic properties, a 147
   Pd/Zn/Pd, ohmic contacts, to p -type GaP, a 194
   thin film photocathode, for vacuum gauge, a 45
   thin films, fabrication by CVD, a 44
   TiNiPd, shape memory thin film, a 142
Palladium Alloys, membranes, H2 permeation33
   Pd40Ni40P20, nanocrystalline structure, a 142
   Pd-Ni, membranes, on porous substrates, a 144
   Pd-Pt/C electrode, for aldehyde detection, a 44
   Pd-Y nanoalloys, thermal stability, H2 absorption, a 41
   PdCu(110) single crystal surfaces, properties, a 89
   PdxTiFe1−x hydrogenation characteristics, a 190
Palladium Complexes, (en)Pd(NO3)2, giving macrocycles, hollow cages, catenaries, a 42
   H2PdCl4, adsorption, onto C, interaction, a 90
   Pd(0), stable, from Pd(PPh3)2(BF4)2 a 89
   [Pd2(μ-X)2,(PBu13)2], acetylene polymerisation, a 89
   Pd(acac)2, PdCl2(PhCN)2 organo Hg, Se detection, a 45
   Pd(η3-C3H5)(Cp), Pd(η3-C3H5)(hfa), precursors for Pd film deposition, a 44
   Pd(II) neutral 5,5’-bis-amide substituted 2,2’- bipyridyl receptors, NMR binding studies, a 89
   porphyrins, in optical O2 sensors115
Phenylacetylene, hydrogenation, using C60[Pd(OAc)2(PPh3)]3, a 193
Phenylethane, synthesis, using C60[Pd(OAc)2(PPh3)]3, a 193
Phosphorescence, Pd-TMPyP, DNA determination, a 194
Photocatalysis, H2O decomposition, over Pt-TiO2 a 145
   H2 production, by Pt/SnO2, Pt/SnO2RuO2 a 91
   by [Pt(bpy)2](NO3)2, poly(2,2’-bipyridine-5,5’-diyl)113
   hydrogenation, Schiff bases, by TiO2-Pt, CdS/PtO2, a 91
   oxidation, alkanes, by trans -[OsO2(CN)2(dpphen)], a 192
   using Pt doped TiO2 films, a 143
Photoconversion, a 43–44, 91, 143–144, 191
Photoluminescence, anodised alloyed Pt/Si contacts, a 43
Photolysis, of [CpnRu(benzene)]PF6 a 42
   Tp*Rh(CO)2, to chiral alkyl-hydride complexes, a 44
Photoproperties, IrCl62−, in MeOH matrices, a 191
   [Pt(bpy)2]2+] [Rh(bpy)2]3+, [Ru(bpy)3]2+, [Os(bph)3]2+ a 191
   [Ru(bpy)3]2+ a 91
   Ru(II), Os(II), diimine complexes, in crystals, a 192
   Ru(tap)2(ppFc)2+, Ru(bpy)2(ppFc)2+, a 91
   spectroscopy, Pt(dpp)X2, a 42
“Platinum 1997”131
Platinum, coatings, electrodeposited, on Ebonex, a 144
     from electrodeposition21
   colloid particle electrodes, for PEC solar cells, a 44
   colloids, formed after Pt catalysed hydrosilylation66
   crystallographic properties, thermal expansion12
   deposited in C nanotubes127
   doped TiO2 films, photocatalytic activity, a 143
   dual-disk microelectrode, properties, a 44
   electrodes, for glucose detection, a 91
   in LB and cast films of porphyrin, H2 evolution, a 191
   loadings, on PEMFC electrodes102
     ultra low, on PEMFC electrodes, a 146
   malleable, history, of Bertrand Pelletier86
   monodispersed, nanostructured, ultrafine80
   nanoparticles, colloids, a 41
     deposited on MeOH FC electrodes, a 194
     from liquid-crystalline phase template170
   overlayers, for growth of Si oxide layers, a 144
   Pt:Pt-10Rh, thermocouple wires81
   Pt, platinised Ti, electrode coatings54
   Pt, Pt/CeO2, electrodes, for NO reduction, a 143
   Pt, Pt/polymer, electrodes, H2 oxidation, a 90
   Pt-carbonyl colloids, a 190
   Pt-coated p -Si photocathodes, H2 evolution, a 44
   Pt-Pd polymer protected bimetallic colloids, a 190
   Pt/MnO2/M, (M = Cu, Al), humidity sensor, a 92
   Pt/Ti bottom electrodes, for PZT capacitors, a 147
   Pt/Ti/Au, ohmic contacts, low contact resistance, a 147
   Pt/Ti/Pt/Au Schottky contacts, a 147
   PtSi/Si1−xGex, Schottky barrier junctions, a 147
   thin films, for O2 electroreduction, a 191
   Ti/Pt/Au Schottky contacts on InGaP, a 95
   wires, connections by electrocrystallisation, a 44
Platinum Alloys, Cu3Pt(111), CO chemisorption, a 41
   as electrodes in H3PO4, properties, a 43
   Pt75Mo25, for oxidation of H2/CO, a 143
   Pt-30%Rh, encapsulating plutonia fuel pellets154
   Pt-Al coatings, corrosion behaviour, a 95
   Pt-Fe permanent magnets, properties, a 190
   Pt-Pd electrode, aldehyde detection, a 44
   Pt-Ru electrodes, MeOH oxidation, DMFCs, a 47
   Pt-Ti, corrosion behaviour, a 95
   Pt-W-Re-Ni-Cr-Y, Pt-Ir-Ni-Cr-Y for strain gauges24
   Pt/Si contacts, composition, photoluminescence, a 43
   PtRu colloids, for CO, CO/H2 electrooxidation, a 146
Platinum Complexes, bis(2,2’-bipyridine)Pt(II), for H2 generation, a 91
   carboplatin, detection, in vivo, a 47
   for hydrodesulfurisation of crude oil8
   porphyrins, in optical O2 sensors115
   [Pt(bpy)2]2+, photoproperties, a 191
   [Pt(bpy)2](NO3)2, for H2 photoproduction113
   Pt(dpp)X2, structures, photoproperties, a 42
   [Pt(en)2[PtCl2(en)2](ClO4)4, electrocrystallisation, a 90
   [Pt(η2C60)(L-L)], (L-L)=Ph2P(CH2)nPPh2, a 142
   Pt(II) neutral 5,5’-bis-amide substituted 2,2’- bipyridyl receptors, NMR binding studies, a 89
   Pt(II), Pt(IV) cisplatin analogues, a 147
Poisoning, S, of autocatalysts76
Pollution Control, at Fourth International Congress on Catalysis and Automotive Pollution Control128
   by fuel cells, 5th Grove Fuel Cell Symposium171
   by Pt catalysts, for removal of NOx75
   Cd, Pb trace metals detection, in H2O11
   contaminated water with Pd/Fe2
   Cr and U traces in environmental samples, a 192
Polyketones, Pd catalysed synthesis10
Polymerisation, acetylenes, using [Pd2(μ-X)2(PBut3)2], a 89
   electro, giving poly(calixarene-[Ru(bpy)3]2+) modified electrodes, a 90
   ethylene, by Pt and Rh complex catalysts, a 46
   methyl methacrylate, Ru catalysed, a 146
   phenylacetylene by Rh and Ir complex catalysts, a 47
   ROMP, olefins, using RuCl2(arene)(PR3), a 194
Polymers, {[Rh(MeCN)4](BF4)1.5}∞ 1-D array63
   conductive, from Ru2(O2C(CH2)6,CH3)4, a 191
   encapsulating media in optical O2 sensors115
   [Os(bpy)2(PVP)10Cl]Cl, for lactate detection, a 192
   poly(1-vinylimidazole)-bound Ru(II), a 91
   poly(2,2’-bipyridine-5,5’-diyl), H2 photoproduction113
   silicones, by hydrosilylation, using Pt catalysts66
Power Sources, radioisotopic, for Cassini spacecraft154
Promoters, in autocatalysts76
Purification, contaminated water using Pd/Fe2
Radioisotopes, plutonia, clad in pgm alloys154
Reduction, CO2, at (modified) RuOx electrodes, a 143
   electro, of O2, at thin Pt films, a 191
     propargyl acetates by PdCl2(PPH3)2/PPh3 a 43
   NO, at Pt, Pt/CeO2, electrodes, a 143
     by C3H8, over Pt/Al2O3, lean-burn conditions, a 192
   O2, at RuO2coated Ti electrodes, a 143
   tetrahydropyrazine, enantioselective165
Reformate, fuel for PEMFCs102
Reforming, n -hexane, over Pt/zeolite catalysts, a 192
   using Pt-Ce/KL or Pt/CeKL zeolite catalysts, a 45
Resistors, RuO2, thick film, properties, a 194
   thick film, ruthenate-based, a 95
Rhodium, crystallography, thermal expansion184
   ErRh3B2, single crystals, characterisation, a 142
   interlayer coupling in Co/Rh/Co sandwiches, a 190
   microdeposits, on C, electrocatalysis for H2, a 90
   Pt:Pt-10Rh, thermocouple wires81
Rhodium Alloys, Pt-30%Rh, encapsulating plutonia154
Rhodium Complexes, {[Rh(MeCN)4](BF4)1.5}∞, 1-D polymer array, as molecular wire63
   HRh(CO)(PPh3)3, reactions with fullerenes, a 42
   [LRh(H)2(μ-Si(CH2CH2Ph)2)2Rh(H)2L], a 142
   [Rh2Cp* 2(μ-CH2)2(μ-η11-NHC(=O)Me)]PF6], a 190
   [Rh(bpy)2)]3+, photoproperties, a 191
   RhCl3 filled C nanotubes, a 95
   Rh(PPh3)2(CO)Cl, by carbonylation of Rh(PPh3)3Cl, a 45
   Tp*Rh(CO)2, photolysis, a 44
Rhodium Compounds, CuRh2S1−x-Tex)4, superconductivity, magnetism, a 41
Ruthenium Alloys, laser surface alloying of Fe-40Cr, a 142
   Ru-Ni-Al ternary system, characteristics, a 190
   Nd-Pd-Ru, ternary phase diagram, a 142
   Ru-Pt electrodes, oxidation of MeOH, in DMFCs, a 47
   RuPt colloids, for CO, CO/H2 electrooxidation, a 146
Ruthenium Complexes,[(C5H5)FeII(C5H4)C=CRuII-(dppm)2(C=CR)], electrochemistry, a 90
   [Cp*Ru(μ-SR)2-(η2-C2H3R′)2RuCp*], synthesis, a 43
   [CpIIRu(benzene)]PF6, [CpIIRu(CH3CN)3]PF6, [CpII Ru(arene)]PF6, a 42
   [(edtaH)RuIIINCRuII(CN)5]4−, properties, a 191
   [HRu4(CO)12−x(PHPh2)xBH2], characterisation, a 191
   K[Ru(Hedta)Cl], Ru(Hedta)(H2O), NO scavengers, a 95
   K[Ru(ll)-(bmipy)(4,4′-dcbpy)(NCS)], sensitisers for solar cells183
   poly(calixarene-[Ru(bpy)3]2+) modified electrodes, a 90
   polymer-bound Ru(II), H2 generation, a 91
   Ru2(O2C(CH2)6(CH3)4, conductive polymers, a 191
   [Ru54-CCCCH(SiMe3))(μ-PPh2)2(μ-SMe)-(μ3-SMe)(CO)10], [Ru54-CCCCH2)(μ-PPh2)2-(μ-SMe)(μ3-SMe)(CO)10], [Ru55-CCCCh2)-(μ-PPh2)2(μ-SMe)2(CO)11], a 89
   [Ru-(binap)-2)3,(PF6)2, [Ru-(binap-2)3],(PF6, structure, conductivity, a 42
   [Ru(bpy)3]2+, doped silica coating films, fluorescence properties, a 143
     photoproperties, a 91, 191
   RuCl(NO)(PPh3)2, trans -[RuCl(NO)(PR3)2], a 42
   [Ru(CO)2Cl(OH)]n , [Ru(CO)2(OH)2]n, a 42
   Ru(dcbpy)3(PF6)2, in MeOH sensor, a 144
   [Ru(dpp)3]2+, [Ru(phen)32+, [Ru(bpy)3]2+, O2sensors115
   RuH2(H2)2(PCy3)2, decomposition, properties, a 90
   Ru(II) diimine, in crystals, photoproperties, a 192
   Ru(II) polypyridyl sensitisers, on TiO2, a 144
   [RuNO(NO2)4OH]2−, nuclear waste treatment, a 144
   Ru(phen)2(dppz)2+, guanine oxidation, in DNA, a 144
   Ru(PPh3)2(CO)2Cl2, by Ru(PPh3)3Cl2 carbonylation, a 45
   Ru(tap)2(ppFc)2+, Ru(bpy)2(ppFc)2+, photoproperties, a 91
   σ-acceptor aryl-enynyl, nonlinear optical properties, a 89
   tris(4,7-diphenyl-1,10-phenanthroline)Ru(II) ditetraphenylborate, thin films, O2 sensor, a 92
   (ttp)Ru(tpy-ph-bco-ph-tpy)Os(tpp)4+, Ru→Os energy transfer, a 90
Ruthenium Compounds, Bi3Ru3O11, electrodes for oxidations, a 143
   RuO2, RuO2/TiO2, TiO2/RuO2/AlSbO4, electrode coatings54
   RuO2-coated Ti electrodes, O2 reduction, a 143
   RuO2, thick film resistors, properties, a 194
   (modified) RuOx, electrodes, reduction of CO2, a 143
   ruthenate-based thick film resistors, a 95
   Sr2RuO4, superconductor, Hall effect, a 41
   SrRuO3, CaRuO3, thin films, Hall effect, a 41
   SrRuO3, thin films, conductive, a 44
   SrRuO3/Pb(Zr, Ti)O3/SrRuO3 capacitors, a 194
   SrTi1−xRuxO3−6 thin films on SrTiO3, a 91
Schottky Barrier Junctions, PtSi/Si1−xGex, a 147
Schottky Contacts, Pt/Ti/Pt/Au, HEMTs, a 147
   Ti/Pt/Au, on InGaP, a 95
Schottky Diodes, Pd/SiC, Pd/SiO2/SiC, sensors, a 194
Semiconductors, IrxCo1−xSb2, thermoelectrics, a 41
   Pt/SnO2, Pt/SnO2/RuO2, CdS, H2 photoproduction, a 91
   [Ru-(binap-2)3](PF6), a 42
   TiO2-Pt, CdS/PtO2, hydrogenation of Schiff bases, a 91
Sensors, aliphatic aldehydes, a 44
   cadmium, in water11
   carboplatin, at low concentrations in vivo, a 47
   chromium, a 192
   glucose, using Pt electrodes, a 91
   H2, hydrocarbons, using Schottky diodes, a 194
   humidity, a 92
   lactate, using [Os(bpy)2(PVP)10Cl]Cl, a 192
   lead, in water11
   MeOH, fluorescence lifetime-based, a 144
   mercury, organic compounds, a 45
   nitrite, using Pt microelectrodes, a 91
   O2, optical, using pgm complexes115
     using Ru(II) complex, a 92
   selenium, organic compounds, a 45
   uranium, trace detection in environment, a 192
Silicones, from hydrosilylation, using Pt catalysts66
Solar Cells, photoelectrochemical, H2 production, a 143
     Pt/Si electrodes, a 44
   with Ru(II) sensitisers183
Spacecraft, Cassini, with plutonia power sources154
Spectroscopy, [Ir(CO)6]3+, [Ir(CO)5Cl]2+, a 42
   Pt(dpp)X2, structures, properties, a 42
Sputtering, ion beam, Pd thin film photocathode, a 45
Steroids, 3β-hydroxy, oxidation, a 47
   oxidation, using Ru porphyrins, a 146
Strain Gauges, from Pt alloys24
Styrene, hydroformylation, by Rh-zeolite132
Sulfur, autocatalyst poisoning76
   removal by Pt complex32
   S-resistant Pt hydrogénation catalysts32
Superalloys, Pt-Al coatings, corrosion resistance, a 95
Superconductivity, CuRh2(S1−xTex)4 solid solution, a 41
Superconductors, SrRuO4, Hall effect, a 41
Tetralin, hydrogenation, by RuS2/KY zeolite, a 93
Thermal Expansion, of Pt12
   of Rh184
Thermal Stability, Pd-Y nanoalloys, H2 adsorption, a 41
Thermocouples, wires, Pt:Pt-10Rh, properties81
Thermodynamics, binary Os-Zr system, a 41
Thermoelectric Properties, lrxCo1−xSb2, a 41
Thick Films, resistors, RuO2, properties, a 194
   ruthenate-based, a 95
Thin Films, see also Films
   capacitors, SrRuO3/Pb(Zr, Ti)O3/SrRuO3, a 194
   CaRuO3, SrRuO3, Hall effect, a 41
   cast, Langmuir-Blodgett, Pt-loaded, H2 evolution, a 191
   Pd, OMCVD, a 44
     photocathodes, ion-beam sputtered, a 45
   Pt, for electroreduction of O2, a 191
   SrRuO3, conductive, pulsed laser deposition, a 44
   SrTi1−xRUxO3−6, on SrTiO3, pulsed laser deposition, a 91
   TiNiPd, shape memory behaviour, a 142
   Ru(II) O2 sensors, a 92
Trichloroethylenes, dechlorination with Pd/Fe3
Uranium, detection, in environmental samples, a 192
Vacuum Gauge, with Pd thin film photocathode, a 45
Water, ground, purification2
   trace Cd, Pb detection’by Ir microelectrode11
Wires, Pt, as catalytic igniter for CH4 flames, a 144
Zeolites, Rh/zeolite catalysts, for hydroformylation132

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