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/Fe | 2 |
ethyl, catalytic oxidation by giant Pd clusters, a | 46 |
from CO2 + H2, over Rh10Se | 166 |
methyl, carbonylation, by Rh-PVP colloid, a | 145 |
with Ir catalysts | 8 |
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 catalyst | 176 |
Aldehydes, detection, a | 44 |
Aldol Reactions, using RuH2(PPh3)4, a | 47 |
Alfred Werner, history | 34 |
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/zeolites | 132 |
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 Ir | 176 |
Arenes, production, from cycloalkanes, Ir catalysed, a | 94 |
N -Arylhydroxylamines, synthesis, using B-Ir/C | 176 |
Azoxybenzenes, synthesis, using B-Ir/C | 176 |
Ballard, development of PEMFCs | 102, 171 |
Benzene, 1,3,5-substituted, Pd catalysed, synthesis, a | 145 |
Bertrand Pelletier, history | 86 |
Book Reviews, “Catalysis of Organic Reactions”, Proc. 16th conf. on Catalysis of Organic Reactions, Atlanta, Georgia, 1996 | 22 |
“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, detection | 11 |
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 Rh10Se | 166 |
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 catalysts | 8 |
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 Saturn | 154 |
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 conference | 76 |
at Fourth International Congress on Catalysis and Automotive Pollution Control | 128 |
manufacture, by Johnson Matthey, in Malaysia | 114 |
pgm, for heat and power cogeneration unit | 64 |
Catalysts, Iridium, B-Ir/C, hydrogenation of organics | 176 |
Iridium Complexes, [(COD)Ir(LL)]ClO4, [(COD)IrCl]2, phenylacetylene polymerisation, a | 47 |
[Ir(CO)2(I)2] for MeOH carbonylation | 8 |
[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 reactions | 11, 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 water | 2 |
Pd/Ni, colloids, for hydrogenation of nitrobenzene | 7 |
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 synthesis | 10 |
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 fractions | 32 |
Pt/zeolites, for reforming n -hexane, a | 192 |
Pt/ZSM-5, for NOx reduction | 75 |
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 H2S | 32 |
HPtCl(CO)2, for alkyne hydration, a | 93 |
Karstedt’s catalyst, for hydrosilylation | 66 |
Na2PtCl6.6H2O, acetylene dimerisation, a | 193 |
[(PPh3)2PtS3O], for hydrodesulfurisation | 32 |
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 synthesis | 166 |
Rh-PEVV, for olefin biphasic hydroformylation, a | 94 |
Rh-PVP colloid, for MeOH carbonylation, a | 145 |
zeolite-encapsulated, for hydroformylation | 132 |
Rhodium Complexes, [2.2]PHANEPHOS Rh+OTf−, | |
enantioselective hydrogenation, reduction | 165 |
[(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 carbonylation | 8 |
[(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 Ir | 9 |
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, production | 54 |
p -Chloronitrobenzene, hydrogenation, on Pt/γ-Al2O3, a | 145 |
Chlorophenols, degradation with Pd/Fe | 2 |
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 catalysts | 7 |
[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 baths | 21 |
electrodeposition, onto ceramic Ebonex, a | 144 |
Pt, RuO2, RuO2/TiO2, IrO2, TiO2/RuO2/AlSbO4 | 54 |
Pt-Al, on superalloys, corrosion behaviour, a | 95 |
Cold Start, automotive, SAE conference | 76 |
Colloids, Pd catalysts, Heck reactions, a | 46 |
Pd, hydrogenolysis of p -bromotoluene, a | 193 |
Pd/Ni, PVP protected, hydrogenation catalysts | 7 |
Pt, on C black, for fuel cells, a | 94 |
end products of hydrosilylation | 66 |
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, 1997 | 11, 171 |
5th International Symposium on Hydrogen in Metals, Les Diablerets, Switzerland, 23–30 August, 1996 | 33 |
First Anglo-Dutch Symposium, Sheffield, 18 September, 1996 | 8 |
Fourth International Congress on Catalysis and Automotive Pollution Control, Belgium, 9–11 April, 1997 | 128 |
HYPOTHESIS-II, Grimstad, Norway, 18–22 August, 1997 | 163 |
Pd and Pd Alloy Membranes Applied to Hydrogen Permeation and Reaction, Talloires, France, 19–20 August, 1996 | 33 |
SAE, Detroit, U.S.A., 24–27 February, 1997 | 76 |
Corrosion, Pt-Al coatings on superalloys, a | 95 |
Pt-Ti alloys, a | 95 |
Corrosion Protection, a | 95 |
Crystallography, properties, of Pt | 12 |
of Rh | 184 |
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 iron | 2 |
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 conference | 76 |
emissions, at Fourth International Congress on Catalysis and Automotive Pollution Control | 128 |
NOx reduction, by Pt/ZSM-5 catalyst | 75 |
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, applications | 54 |
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 baths | 21 |
nanoparticles, on MeOH fuel cell electrodes, a | 194 |
Electrodes, anodes, dimensionally stable | 53 |
platinised Ti, for oxidations, electrosyntheses | 54 |
Pt-Ru/C, Pt/C, for DMFCs, a | 94 |
RuO2, RuO2/TiO2, IrO2, TiO2/RuO2/AlSbO4 | 54 |
Ti/IrO2-Ta2O5, properties, a | 43 |
Bi3Ru3O11, for oxidations, a | 143 |
cathodes, Pt-W oxide-based, for PAFCs, a | 95 |
Pt/Ru coated, in chlor-alkali industry | 54 |
film-coated, C-fibre + Pd, for hydrogenations, a | 191 |
Ir, microelectrode, for trace metal detection | 11 |
Ir-based Hg, for measuring trace Cr and U, a | 192 |
Pd, polymer film, for acetylene hydrogenation, a | 43 |
for PEMFCs, comparisons | 102 |
with ultra low Pt loading, a | 146 |
photo, n -TiO2/Ti SC-SEP/Pt, in solar cell, a | 143 |
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 PEMFCs | 102 |
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, DMFCs | 54 |
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 dimensional | 54 |
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-assisted | 7 |
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 unit | 64 |
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 surfaces | 9 |
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 spacecraft | 154 |
Fuel Cells, a | 47, 94–95, 146, 194 |
5th Grove Fuel Cell Symposium | 11, 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, DMFCs | 54 |
MeOH oxidation, with Pt nanoparticles, a | 194 |
for PAFCs, a | 43 |
HYPOTHESIS-II | 163 |
PEMFCs, progress in design, cost reduction | 102 |
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 catalysed | 11, 23 |
Pd colloid catalysed, a | 46 |
Pd on porous glass catalysts | 163 |
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/zeolites | 132 |
Hexene, isomerisation, by Rh2 complex in DMSO, a | 93 |
History, Alfred Werner’s pgm research | 34 |
Bertrand Pelletier, preparation of malleable Pt | 86 |
HIV, protease inhibitor, Rh catalyst for | 165 |
Humidity, sensor, a | 92 |
Hydration, alkynes, by HPtCl(CO)2, a | 93 |
nitriles using RuH2(PPh3)4, a | 47 |
Hydrocarbons, dechlorination with Pd/Fe | 2 |
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 conference | 76 |
Hydrocracking, DMDBT, a | 45 |
heptane, over PtPd/H-Beta, PtPd/USY zeolites, a | 145 |
Hydrodesulfurisation, crude oil | 8 |
dibenzothiophene and diesel oil, over PdMo/HY zeolite catalysts, a | 92 |
Hydroformylation, 1-hexene, styrene, allyl alcohol, by zeolite-encapsulated Rh catalysts | 132 |
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 review | 23 |
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-II | 163 |
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 alloys | 33 |
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, a | 193 |
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 Pt | 32 |
cyclohexene, by Pt, Pd colloids, a | 145 |
2-cyclohexenone, by fullerene-based Ru catalysts, a | 92 |
dehydroamino acid methyl esters, enantioselective | 165 |
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 colloids | 7 |
olefins, using RuCl2(PPh3)3, a | 146 |
organic compounds, on Pd/C-fibre electrode, a | 191 |
using B-promoted Ir/C | 176 |
p -chloronitrobenzene, Pt/γ-Al2O3 membranes, a | 145 |
reactions, book review | 22 |
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 catalysts | 66 |
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 coating | 54 |
metallurgy, book review | 85 |
microdetector arrays, trace metal detection in water | 11 |
Ti/IrO2-Ta2O5 anodes, properties, a | 43 |
Iridium Alloys, DOP-26 Ir, encapsulating plutonia | 154 |
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 unit | 64 |
JM1226, JM6245, NO scavengers, a | 95 |
new autocatalyst manufacturing plant in Malaysia | 114 |
“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, detection | 11 |
Ludwig Mond Lectureship | 8 |
Luminescence, of pgm complexes, optical O2 sensors | 115 |
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 for | 165 |
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 permeation | 33 |
Pd, Pd-Ni, on porous substrates, by MOCVD, a | 144 |
Pd, thin, gas-tight, by CVD, a | 45 |
for PEMFCs | 102 |
Pt/γ-Al2O3, hydrogenation of p -chloronitrobenzene, a | 145 |
Metallisation, insulating materials by Pd(acac)2 | 7 |
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 nanotubes | 127 |
RhCl3, filled C nanotubes, a | 95 |
Nanoparticles, Pt, cuboctahedral, icosahedral, a | 41 |
monodispersed, polymer protected | 80 |
using liquid-crystalline phase template | 170 |
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 Control | 128 |
at the SAE conference | 76 |
by Pt/ZSM-5 catalyst | 75 |
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 Pd | 33 |
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 |
sensors | 92, 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 deposition | 7 |
membranes, fabrication by CVD, a | 45 |
hydrogen permeation | 33 |
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 permeation | 33 |
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 sensors | 115 |
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 electrodeposition | 21 |
colloid particle electrodes, for PEC solar cells, a | 44 |
colloids, formed after Pt catalysed hydrosilylation | 66 |
crystallographic properties, thermal expansion | 12 |
deposited in C nanotubes | 127 |
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 electrodes | 102 |
ultra low, on PEMFC electrodes, a | 146 |
malleable, history, of Bertrand Pelletier | 86 |
monodispersed, nanostructured, ultrafine | 80 |
nanoparticles, colloids, a | 41 |
deposited on MeOH FC electrodes, a | 194 |
from liquid-crystalline phase template | 170 |
overlayers, for growth of Si oxide layers, a | 144 |
Pt:Pt-10Rh, thermocouple wires | 81 |
Pt, platinised Ti, electrode coatings | 54 |
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 pellets | 154 |
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 gauges | 24 |
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 oil | 8 |
porphyrins, in optical O2 sensors | 115 |
[Pt(bpy)2]2+, photoproperties, a | 191 |
[Pt(bpy)2](NO3)2, for H2 photoproduction | 113 |
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 autocatalysts | 76 |
Pollution Control, at Fourth International Congress on Catalysis and Automotive Pollution Control | 128 |
by fuel cells, 5th Grove Fuel Cell Symposium | 171 |
by Pt catalysts, for removal of NOx | 75 |
Cd, Pb trace metals detection, in H2O | 11 |
contaminated water with Pd/Fe | 2 |
Cr and U traces in environmental samples, a | 192 |
Polyketones, Pd catalysed synthesis | 10 |
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 array | 63 |
conductive, from Ru2(O2C(CH2)6,CH3)4, a | 191 |
encapsulating media in optical O2 sensors | 115 |
[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 photoproduction | 113 |
silicones, by hydrosilylation, using Pt catalysts | 66 |
Power Sources, radioisotopic, for Cassini spacecraft | 154 |
Promoters, in autocatalysts | 76 |
Purification, contaminated water using Pd/Fe | 2 |
Radioisotopes, plutonia, clad in pgm alloys | 154 |
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, enantioselective | 165 |
Reformate, fuel for PEMFCs | 102 |
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 expansion | 184 |
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 wires | 81 |
Rhodium Alloys, Pt-30%Rh, encapsulating plutonia | 154 |
Rhodium Complexes, {[Rh(MeCN)4](BF4)1.5}∞, 1-D polymer array, as molecular wire | 63 |
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-η1:η1-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 cells | 183 |
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 |
[Ru5(μ4-CCCCH(SiMe3))(μ-PPh2)2(μ-SMe)-(μ3-SMe)(CO)10], [Ru5(μ4-CCCCH2)(μ-PPh2)2-(μ-SMe)(μ3-SMe)(CO)10], [Ru5(μ5-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+, O2sensors | 115 |
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 coatings | 54 |
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 water | 11 |
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 water | 11 |
MeOH, fluorescence lifetime-based, a | 144 |
mercury, organic compounds, a | 45 |
nitrite, using Pt microelectrodes, a | 91 |
O2, optical, using pgm complexes | 115 |
using Ru(II) complex, a | 92 |
selenium, organic compounds, a | 45 |
uranium, trace detection in environment, a | 192 |
Silicones, from hydrosilylation, using Pt catalysts | 66 |
Solar Cells, photoelectrochemical, H2 production, a | 143 |
Pt/Si electrodes, a | 44 |
with Ru(II) sensitisers | 183 |
Spacecraft, Cassini, with plutonia power sources | 154 |
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 alloys | 24 |
Styrene, hydroformylation, by Rh-zeolite | 132 |
Sulfur, autocatalyst poisoning | 76 |
removal by Pt complex | 32 |
S-resistant Pt hydrogénation catalysts | 32 |
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 Pt | 12 |
of Rh | 184 |
Thermal Stability, Pd-Y nanoalloys, H2 adsorption, a | 41 |
Thermocouples, wires, Pt:Pt-10Rh, properties | 81 |
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/Fe | 3 |
Uranium, detection, in environmental samples, a | 192 |
Vacuum Gauge, with Pd thin film photocathode, a | 45 |
Water, ground, purification | 2 |
trace Cd, Pb detection’by Ir microelectrode | 11 |
Wires, Pt, as catalytic igniter for CH4 flames, a | 144 |
Zeolites, Rh/zeolite catalysts, for hydroformylation | 132 |