Platinum Metals Rev., 2002, 46, (4), 199
Subject Index TO Volume 46
a = abstract | Page |
---|---|
Acetates, methyl, from MeOH, a | 139 |
Acetylenes, phenyl-, oligomerisation, a | 190 |
polymerisation, a | 140, 190 |
Acid Chlorides, hydrogenation | 73 |
Acrylic Acids, asymmetric hydrogenation | 180 |
ACT™, Pt, Pt-Rh coatings, for the glass industry | 181 |
Activation, CH4, a | 87 |
Alcohols, allylic, arylation, a | 41 |
C-C bond formation, with enoxysilane, a | 140 |
aromatic, transfer dehydrogenation, a | 40 |
2-arylcyelohexenols, to 2-arylcyclohexenes, a | 139 |
methyl, conversion, to methyl acetate, a | 139 |
decomposition, a | 190 |
electrooxidation | 106 |
DMFCs | 88, 146 |
oxidation, a | 42, 84 |
oxidation, a | 42, 84, 191 |
aerobic | 26 |
selective | 24 |
Aldehydes, from acid chlorides | 73 |
from alcohols | 26, 191 |
Alfa Aesar, Fuel Cell Catalysts Brochure | 14 |
Alkali metals, iodides, effects on Pd, Pt cathodes, | |
in superdry conditions | 94 |
Alkenes, dihydroxylation | 24 |
from alkynes | 73 |
oxidation, a | 39 |
Alkoxycarbonylation, chloropyridines, a | 87 |
Alkylacrylates, copolymerisation with ethene, a | 139 |
Alkynes, hydroalkenylation, a | 139 |
hydroarylation, a | 139 |
hydrogenation | 73 |
hydrosilylation, a | 138 |
Alloys, dental, a | 88 |
jewellery | 66 |
Aluminium, Al-Mg-Pd, melt oxidation, a | 38 |
Al-Pd-Co, U-, V-phase, structures, a | 38 |
Amination, aryl halides with an ammonia analogue | 50 |
Hartwig-Buchwald | 50 |
Amines, in fast living radical polymerisation, a | 140 |
Amino Acids, L-DOPA synthesis | 82 |
Ammonia, oxidation, over Pt | 24 |
Aquation, cis -, trans-Pt(Ypy)2(NO3)2, a | 188 |
Arenecarboxylic Acids, synthesis, a | 41 |
Arenes, hydrogenation, a | 42, 138 |
iodo-. homocoupling, a | 139 |
Aroyl Halides, microwave-assisted phenylation, a | 87 |
Aryl Halides, arylation, of allylic alcohols, a | 41 |
cross-coupling reactions | 50 |
dehalogenation, a | 41 |
Heck reactions | 50, 139 |
Suzuki couplings, a | 190, 191 |
Arylation, allylic alcohols, a | 41 |
α-amino acid esters, a | 87 |
N -AryIation, aryl indoles | 50 |
Arylboronic Acids, coupling reactions | 41, 50 |
autocatalysts, technologies adopted by EU | 27 |
Biomimetic Assemblies, in photosynthesis, a | 85 |
Book Reviews, “Catalysis of Organic Reactions” | 23 |
Catalysts & Catalysed Reactions | 65 |
“Handbook of Heterogeneous Catalytic Hydrogenation for Organic Synthesis” | 73 |
“Modern Electrochemistry” | 15 |
“Progress in Hydrogen Treatment of Materials” | 37 |
Buchwald-Hartwig Couplings | 50 |
Bushveld Complex, PGE geology, conference | 177 |
Cancer, drugs | 88, 165, 166 |
Capacitors, container, with Pt films, for memory Cells | 107 |
IrO2/PLZTVPt. Pt/PLZTm, Η-damage, o | 42 |
Capacitors, (cont.) | |
memory, Pt-PtOx thin film electrodes, a | 88 |
MIM, Pt thin film electrodes, a | 189 |
Pt/SrBi2.2Ta2O9/Pt, annealing effects, a | 88 |
Carbenes, Pd, N -heterocyclic nucleophilic | 50 |
Ru, a | 87, 140 |
Carbon Oxides, CO2, methanation, a | 86 |
poisoning, in PEMFC | 122 |
reforming of propane, a | 41 |
supercritical, solvent | 139, 165, 176 |
CO, chemisorbed, on Pt, PtRu nanoparticles | 106 |
copolymerisation, with ethene. a | 139 |
effects in fuel Cells | 106, 117. 146 |
electrooxidation | 106. 106, 191 |
poisoning, in PEMFC | 118 |
reaction with O2, a | 40 |
Carbonylation, with aryltin compounds, a | 41 |
Carboxylic Acids, arene-, synthesis, a | 41 |
in ketone synthesis, a | 41 |
α,β-, β,γ-unsaturated, hydrogenation | 82 |
Catalysis, book reviews | 106, 65, 73 |
conferences | 106, 24, 165, 167 |
heterogeneous, a | 106–4l, 86, 138-139. 189-190 |
homogeneous, a | 106–42, 87, 139-140, 190-191 |
in ionic liquids, a | 191 |
low temperature fuel Cells | 106, 64, 117, 146 |
in sc-CO2 | 106,165,176 |
Catalysts, dendrimers | 167, 180 |
in fat hardening | 23 |
fixed bed reactors, design aspects | 144 |
high purity gas production | 144 |
homogeneous, supported | 23 |
pgm/C, paste, powder, preferences | 48 |
recycling | 106, 41, 176, 180, 190, 191 |
three-way, see Three-Way Catalysts | |
Catalysts, Iridium, Ir black, NOx reduction | 24, 41 |
RuO2/IrO2, to sustain H2O electrolysis, in PEMFCs | 132 |
Catalysts, Iridium Complexes, [(cod)IrCl]2, a | 140 |
[Ir(cod)(PPh3)2]X, for C–C: bond formation, a | 140 |
Ir(I), for hetero-Heck type reaction, a | 139 |
Catalysts, Osmium, Osx(CO)x/Vulcan C. in PEMFCs, a | 106 |
Catalysts, Osmium Complexes, | |
OsO4 + cinchona alkaloid, dihydroxylation | 82, 191 |
OsO4/FibreCat™, dihydroxylation | 24 |
Catalysts, Palladium, K5PPdW11O39·12H2O/γ-Al2O3,/C, hydrogenation of arenes, a | 138 |
LaFeCoPdO, for automotive emissions control, a | 190 |
Lindlar | 73 |
Pd nanoparticles/Al2O3/NiAl, MeOH decomposition, a | 106 |
Pd-Bi/C, glucose selective oxidation, a | 138 |
Pd-perovskite, automotive emissions control, a | 190 |
Pd-Pt/AIMCM-41, n -decane isomerisation, a | 189 |
Pd/Al2O3, aromatic alcohol dehydrogenation, a | 40 |
hydrodechlorination of chlorinated olefins, a | 138 |
Pd/Al2O3 + Mg mesh, phenol hydrogenation, a | 190 |
Pad/y-Al2O3, 4-chloro-2-nitrophenol hydrogenation, a | 86 |
Pd/AlMCM-41, n -decane isomerisation, a | 189 |
Pad/BaSO4, hydrogenation of acid chlorides | 73 |
selective poisoning, with thioquinanthrene | 73 |
Pd/bulk MgO single crystal, particle morphology | 24 |
Pd/C, paste, commercial | 48. 92 |
liquid phase batch hydrogenation | 92 |
powder, commercial | 48 |
+ soluble Bi, glucose selective oxidation, a | 138 |
Suzuki coupling, a | 190 |
Pd/CeO2/Al2O3, thiophene, VOC, oxidation, a | 138 |
Pd/Fe, Pd/Mg, phenol hydrogenation, a | 190 |
Pd/Pb-doped CaCO3, hydrogenation of alkynes | 73 |
modified with pyridine, quinoline | 73 |
Pd/support, aromatic alcohol dehydrogenation, a | 40 |
PdCl2-CuCl2. myrcene oxidation, a | 190 |
transfer of oxide ions, to a catalyst substrate | 165 |
Catalysts, Palladium Complexes, π-allyl-Pd, | |
asymmetric synthesis of: (-)-haemanthidine, | |
(-)-mesembrane, (-)-mesembrine, | |
(+)-crinamine, (+)-pretazettine a | 139 |
(n3-allyl)Pd intermediate, allylsilanes cyclisation a | 41 |
for cross-coupling reactions 50. | 165 |
(dippf)PdCl2, (dippf)PdCl(CH3), polymerisation a | 190 |
(dppe)PdCl2, (dppe)PdCl(CH3), oligomerisation a | 190 |
(dppf)PdCl2, (dppf)PdCl(CH3), polymerisation a | 190 |
FibreCat™, Suzuki coupling a | 190 |
N -heterocyclic nucleophilic carbenes, for C–C C–N | 50 |
Pd, for poly(para -phenylene) polymer, synthesis | 187 |
Pd(O) tricyclohexylphosphine, coupling reaction a | 41 |
Pd-phosphino-oxazoline allyl, ‘meta-dialkyl effect' | 167 |
Pd-polymer-bound phosphine, Suzuki coupling a | 191 |
PdCl2(Ph3P3)2/dppb, alkoxycarbonylation a | 87 |
Pd(dba)2 + phosphinobenzene sulfonic acid a | 139 |
Pd(dba)2/(trimethylphenyl)dihydroimidazolium salt a | 41 |
Pd2(dba)3/phosphine, α-amino acid ester arylation a | 87 |
Pd(II) acetate-pyridine/hydrotaicite, aerobic oxidation | 26 |
Pd(II) salt, carbonylation of aryltin compounds a | 41 |
Pd(OAc)2, arylation of allylic alcohols a | 41 |
Pd(OAc)2. for cross-coupling reactions | 50 |
Pd(OAc)2 + phosphinobenzene sulfonic acid a | 139 |
Pd(OAc)2 + PPh3, synthesis of isoxazolidines a | 190 |
Pd(OAc)2 + P(o -tolyl)3, for coupling reactions a | 139 |
Pd(OAc)2/dppf, alkoxycarbonylation a | 87 |
Pd(OCOCF3)3/P(2-furyl)3, iodoarene homocoupling a | 139 |
Pd(PPh3)2Cl2, microwave promoted phenylation a | 87 |
Pd(PPh3)4, unsaturated N -chloroamine cyclisation. a | 139 |
Catalysts, Platinum, CH4 partial oxidation | 24 |
electrocatalysts, anodes, for fuel Cells 117, | 146 |
cathodes, for fuel Cells 3, | 146 |
nanoparticles. Pt, for DMFC a | 88 |
Pt/γ-Al2O3, preparation | 115 |
NH3 oxidation | 24 |
Pd-Pt/AIMCM-41, n -decane isomerisation. a | 189 |
Pt black, electrocatalysts, cathodes, for DMFCs | 146 |
Pt-Rh/Al2O3, TWC, CO + O2 reaction a | 40 |
Pt-Sn/Al2O3, for cyclohexane dehydrogenation. | |
n -octane reforming, n -pentane isomerisation a | 40 |
Pt/Al2O3, Ce addition, phenol wet oxidation a | 138 |
for cyclohexane dehydrogenation. n -octane | |
reforming, n -pentane isomerisation a | 40 |
hydrocarbon oxidation a | 86 |
impregnated using H2PtCl6, Pt(NH3)4Cl2, a | 138 |
+ Rh/Al2O3, hydrocarbon oxidation a | 86 |
Pt/Al2O3/Al monoliths. VOC oxidation a | 189 |
Pt/AIMCM-4l, n -decane isomerisation a | 189 |
Pt/C, 4-chloro-2-nitrophenol hydrogenation. a | 86 |
hydrosilylation of alkynes. a | 138 |
MeOH oxidation a | 42 |
NO decomposition a | 86 |
O2 reduction reaction a | 42 |
Pt/CeO2-ZrO2, in high throughput screening a | 190 |
Pt/graphite, cinchona-modified, for hydrogenation. a | 86 |
Pt/Ni, Pt/Ru, Pt/Ru/Ni, nanoparticles, for DMFC a | 88 |
Pt/SPE membrane, preparation a | 40 |
Pt/wide-pore SiO2, polystyrene hydrogenation. a | 86 |
PtCr, PtFe, PtMn, PtNi, PtTi, PtZr, electrocatalysts. | |
cathodes, for PEMFCs | 3 |
PtMo. electrocatalysts, anodes, for PEMFCs | 117 |
PtRu, fuel Cell electrocatalysts | 14, 88, 106, 117, 146, 191 |
CO tolerance in fuel Cells | 106, 122 |
PtRu/C, fuel Cell electrocatalysts | 14, 117, 140. 146, 191 |
Pt,Sn/Mg(Al)O, propane dehydrogenation a | 40 |
Catalysts, Platinum Complexes, Pt(bpym)Cl2, | |
Pt(NH3)Cl2, for CH4 activation a | 87 |
Catalysts, Rhodium, Pt-Rh/Al2O3, TWC, CO + O2 a | 40 |
Rh aluminosilicate, laminar, zeolitic structures a | 138 |
anchoring [Rh(Me2CO),(2,5-norbornadiene)|CI04 a | 138 |
Rh/Al2O3, film, model catalyst | 24 |
hydrocarbon oxidation a | 86 |
+ Pt/Al2O3, hydrocarbon oxidation a | 86 |
Rh/TiO2, with propene, NOx reduction | 24 |
Catalysts, Rhodium Complexes, alkenyl-Rh. aryl-Rh. a | 87 |
with fluoroorganic groups, solubility in Sc-CO2 | 165 |
in fluorous phases | 165 |
Rh2(OAc)2, for 1,3-dipolar cycloaddition. a | 191 |
Rh-polymer sc-CO2 soluble | 176 |
[Rh(A)CO]*/SiO2. hydroformylation-hydrogenation a | 41 |
[Rh-(-)-BINAP(COD)]ClO4, in L-menthol process | 82 |
[Rh(COd)(MeCN)2]BF4, conjugate additions a | 87 |
[Rh((R,R)-DiPAMP)COD]BF4, l-DOPA synthesis | 82 |
Rh(I). for hetero-Heck type reaction a | 139 |
Rh(III) salt, carbonylation of aryltin compounds a | 41 |
[Rh(OH)(cod)]2, for internal alkynes + silanediols. a | 139 |
Rh(TAN15DPPA)Cl, cyclohexene hydrogenation | 176 |
Catalysts, Ruthenium, | |
Pt/Ru, Pt/Ru/Ni, nanoparticles. for DMFC a | 88 |
PtRu, fuel Cell electrocatalysts | 106. 88. 106. 117. 146, 191 |
CO tolerance in fuel Cells | 106, 122 |
PtRu/C, fuel Cell electrocatalysts | 106. 117. 140. 146. 191 |
Ru-Sn/Y zeolite, MeOH conversion a | 139 |
methyl acetate formation a | 139 |
Ru/Al2O3, CO2 reforming of propane a | 41 |
Ru/sepiolite, + Mn, Mo, Zr, for CO2 methanation a | 86 |
RuO2, RuO2,IrO2, TiO2, to sustain H2O electrolysis. | |
in PEMFCs | 132 |
Catalysts, Ruthenium Complexes, with fluoroorganic | |
groups, solubility in sc-CO2 | 165 |
in fluorous phases | 165 |
["Pr4N][RuO4] + NMO or O2. alcohol oxidation a | 191 |
perruthenates/, ruthenates/FibreCat™, alcohol oxidation | 1 24 |
[(R2P(CH2InPR2-K2P)XRu=CHR']. olefin metathesis, a | 87 |
Ru-BINAP, dendritic, asymmetric hydrogenation | |
of acrylic acids | 180 |
Ru carbenes, ring-closing enyne metathesis a | 140 |
Ru Schiff base, Kharasch addition, CCl4 + olefins a | 87 |
RCM of diolefins a | 87 |
RuCl2(PPh3)3, fast living radical polymerisation a | 140 |
RuCl2(xylylbinap)(diamine), allyl alcohol synthesis | 82 |
RuCl3, chlorination, aromatic compounds, olefins a | 42 |
RuCl3,3H2O + trioctylamine, lignin hydrogenation | 167 |
[RuH2(H2)2(PCy3)2], arene hydrogenation a | 42 |
Ru(II) BINAP, chiral propanediol production | 82 |
RuO4, with NaOCl. oxidation of ethers. a | 87 |
[Ru(OAc)2((S)-BINAP)], (S)-(+)-naproxen synthesis | 82 |
[RuX2(BINAP)], for ketone hydrogenation | 82 |
[RuX(arene)BINAP]X, for ketone hydrogenation | 82 |
CerOx™ Process, to treat hazardous organic wastes | 18 |
Chemical Vapour Deposition, Pt, films | 106. 189 |
nanoparticles a | 38 |
precursors for | 106, 107, 189 |
Chemiluminescence, sec Luminescence | |
Chiral, catalysis, in hydrogenation, oxidation | 82 |
Cisplatin | 106. 165. 166 |
Clusters, Rh-Pt a | 38 |
Coatings ACT™, Power Coatings™, for glass industry | 181 |
see also Deposition and Electrodeposition | |
Cobalt, Al-Pd-Co, U-, V-phase. structures a | 38 |
Pt-Co. jewellery alloy | 66 |
Colloids, Ag. Pd. for Ag:Pd powder a | 84 |
Pt 10.5. | 136 |
Combinatorial Chemistry, in catalysis | 24 |
Composites, ceramic matrix, with Al-Mg-Pd. a | 38 |
Pd-ceramic membrane a | 86 |
see also Nanocomposites | |
Conferences, 8th Int. Conf. Chem. of the PGMs. | |
Southampton, | 106 81. 165, 166, 167 |
9th Int. Platinum Symp., Billings, MT, U.S.A., 2002 | 177 |
18th Conf. on Catal. of Org. React., Charleston, | |
SC U.S.A., 2000 | 23 |
EuropaCat-V. Limerick, Ireland, 2001 | 24 |
EuropaCat-VI, 2003 | 24 |
Fuel Cells for Automotive Applications, London, 2002 | 64 |
Fuel Cells - Science and Technology 2002. | |
Amsterdam, 2002 | 64 |
The Dynamic Electrode Surface, Berlin, 2002 | 106 |
Copper, Pt-Cu, jewellery alloy | 66 |
Coupling Reactions, (arylboronic + carboxylic) acids, a | 41 |
cross-, for C-C C-N bonds | 50 |
homo-, iodoarenes, a | 139 |
organosilanes, as coupling agents | 50 |
Pd catalysts 50, | 165 |
see also Heck Reactions and Suzuki Couplings | |
Creep, in Ir-based refractory superalloys | 74 |
Crystallisation, Pd40Cu30P2oNi10 a | 136 |
Pd43Ni10Cu27P20 melts a | 38 |
Cyclisation, allylsilanes, a | 41 |
unsaturated N -chloroamines, to piperidines, a | 139 |
Cycloadditions, 1,3-dipolar a | 190, 191 |
Cyclohexenes, 2-aryl-, from 2-arylcyclohexenols a | 139 |
hydrogenation | 176 |
Decomposition, CH4 a | 189 |
MeOH a | 190 |
NO, a | 86 |
Dehalogenation, aryl halides a | 41 |
Dehydrogenation, propane a | 40 |
transfer, aromatic alcohols a | 40 |
Dendrimers, as catalysts 167, | 180 |
Os(II), Ru(II) polypyridines, photoproperties, a | 85 |
synthesis | 165 |
Dental, alloys a | 88 |
Deposition, Pd, at C paste electrodes a | 85 |
see also Coatings and Electrodeposition | |
DHPS®, for the glass industry | 181 |
Diesel, oxidation catalysts, Pt | 27 |
particulate filters | 27 |
selective catalytic reduction | 27 |
Dihydroxylation, by OsO4 24, 82, | 191 |
β-Diketones, Pt(II) with Al(CH3)3, for Pt networks | 105 |
Pt(II) β-diketonates, photoreactions with olefins, a | 39 |
Dimerisation, of [M(L-L)2(eilatin)]2+, M = Os, Ru, a | 136 |
2,4-Dinitrotoluene, electron transfer reduction of | 94 |
Ductility, in Ir-based refractory superalloys | 74 |
Electrical Conductivity, in (C7H13NH)[Pd(dmit)2]2, a | 39 |
Electrical Contacts, ohmic, Pd/n*-GaAs, a | 88 |
Pt, with Si interlayers, on p -type SiC, a | 191 |
Electrochemical Cells, CerOx™ waste process | 18 |
Electrochemistry, a | 84-85,137, 188 |
book review | 15 |
cathode reactivity of Pd, Pt, in dry DMF | 94 |
destruction of hazardous organic wastes | 18 |
doping, of Pt phthalocyanine microcrystals, a | 85 |
in fuel cells, see Fuel Cells | |
Electrodeposition, Os, Os alloys, a | 189 |
Pt, fine particles a | 39 |
see also Coatings and Deposition | |
Electrodeposition and Surface Coatings, a | 39, 85, 189 |
Electrodes, Au, anchoring of Pt(II) complex, a | 137 |
Au-Pt black, for glucose sensor a | 86 |
C paste, Pd deposition and dissolution a | 85 |
conference | 106 |
in fuel cells, see Fuel Cells | |
Pd, cathode reactivity in dry DMF | 94 |
Pt(III), for CO electrochemical oxidation | 106 |
Pt, cathode reactivity in dry DMF | 94 |
for CO electrooxidation | 106 |
in hydrocarbon sensor a | 40 |
microdisk, in NO sensor a | 40 |
nanoparticles, + nano-honeycomb diamond films, a | 84 |
thin films, for MIM capacitors, a | 189 |
wire, for in vivo biological sensors | 72 |
Pt-plated Ti, in CerOx™ electrochemical cell | 18 |
Pt-PtOx thin films, for memory capacitors, a | 88 |
PtRu, for CO electrooxidation | 106 |
Ru(001), electrooxidation | 106 |
RuO2/C, in supercapacitors, a | 88 |
n -Si, with fine Pt particles, a | 39 |
Ti2FeRuO2, Tix Fey RUzOn, in supercapacitors | 105 |
Ti/IrO2-TaO5, anode ageing, in H2SO4 a | 188 |
Ti/IrO3,-Sb2O5-SnO2, wastewater electroflotation a | 137 |
Electrodes, (cont.) | |
Ti/RuO2, anodes, preparation a | 137 |
Ti/RuO3Mn1-3 O2 anodes, Cl2 + O2 evolution a | 188 |
Electroflotation, of wastewater a | 137 |
ElectroIess Plating, Ag-Pd thin films, for membranes, a | 86 |
Pt, on SPE membranes a | 40 |
Emission Control, motor vehicles 27, | 190 |
Erbium, Pd-Er-H. H effects on | 169 |
Etching, Pt, by ICP, using BCl3/Cl2 a | 140 |
Ethene, copolymerisation with alkylacrylates a | 139 |
non-alternating copolymerisation with CO a | 139 |
Ethers, cyclic enol, by ring-closing enyne metathesis, a | 140 |
oxidation a | 87 |
EthyI Pyruvate, hydrogenation a | 86 |
Europe, EU adopted emission control, legislation | 27 |
Eutectic Reactions, Pd-rare earths | 108 |
Films, Co-Pt, sputtered on (001)-oriented Si wafer, a | 140 |
Ir, by MOCVD a | 39 |
Pt, by CVD, for memory capacitors | 107 |
see also Thin Films | |
‘Final Analysis’ | 2, 48, 92, 144 |
Fracture, in Ir-based refractory superalloys | 74 |
Fuel Cells a | 42,88, 140, 191 |
automotive use | 24, 64 |
catalysts, Pt/C, for MeOH oxidation a | 42 |
for O2 reduction reaction, in presence of Cl-, a | 42 |
PtRu, CO tolerance | 106, 122 |
conferences | 24, 64 |
DMFC, anodes | 14, 146 |
cathodes | 146 |
MEAs | 146 |
miniaturisation | 161 |
portable applications | 161 |
electrocatalysts, Pt-Ru/C, by sulfito method, a | 191 |
electrodes, Pt-Ru, nanostructured, CO oxidation, a | 191 |
Fuel Cell Catalysts Brochure, Alfa Aesar | 14 |
HiSPEC™ fuel cell catalysts | 14, 146 |
low temperature, catalysis | 3, 64, 117. 146 |
membrane electrode assemblies | 3, 117, 140. 146 |
nanoparticles | 3, 88, 117, 146 |
PEFC, Pt-Ru/C electrocatalysts, XANES, a | 140 |
MEAs a | 140 |
PEMFC, air bleed technique | 129 |
anodes | 117 |
cathodes | 3, 88 |
CO2, CO, poisoning | 117 |
comparison with DMFC | 146 |
electrocatalysts, anode, PtMo, PtRu | 117 |
cathode, Osx (CO)n /Vulcan C, a | 88 |
Pt, Pt alloys | 3 |
MEAs | 3, 117 |
water electrolysis, effects | 132 |
SOFC, LaSrCrRuO, anode material, a | 191 |
see also Catalysts, Iridium, Platinum, Ruthenium | |
Gases, high purity H2, O2 | 144 |
Geology, book | 17 |
conference | 177 |
Glass, production technology | 181 |
Glucose, oxidation | 106, 138 |
sensors a | 40. 86 |
Halogenation, of aromatic compounds, olefins a | 42 |
Heck Reactions 50, | 139. 165 |
High Temperature, Ir-based refractory superalloys | 74 |
High Throughput Screening Techniques 24 | , 87. 190 |
Hydroalkenylation, alkynes, with silanediols, a | 139 |
Hydroarylation, alkynes, with silanediols a | 139 |
Hydrocarbons, emission control in EU | 27 |
oxidation a | 86 |
sensor, a | 40 |
Hydrocracking, n -decane, a | 189 |
Hydrodechlorination, chlorinated olefins, a | 138 |
Hydrofonmylation-Hydrogenation, l-octene a | 41 |
Hydrogen,absorption. Pd | 106, 169, 188 |
book review | 37 |
damage of capacitors a | 42 |
electrooxidation | 117 |
interaction with Pd, Pd alloys | 37, 169 |
sensors a | 189 |
separation, using Pd-Ag membrane reactor a | 189 |
using Pd-ceramic membranes a | 86 |
solid solutions, in Pd | 169 |
structural changes in Pd, Pd-Er, Pd-W | 169 |
treatment of materials | 37 |
Hydrogenation, acid chlorides | 73 |
α-(acylamino)acrylic acids, esters | 82 |
alkynes | 73 |
arenes. a | 42. 138 |
asymmetric, acrylic acids | 180 |
book review | 73 |
carboxylic acids, α.β-, β.γ-unsaturated | 82 |
chiral-catalysed | 82 |
cyclohexene | 176 |
ethyl pyruvate, a | 86 |
ketones | 82, 138 |
lignin | 167 |
in liquid phase batch reactors | 48,92 |
1 -octene | 176 |
phenols a | 86, 190 |
polystyrenes a | 86 |
Hydrolysis, cis-, trans-Pt(Ypy)2(NO3)2, a | 188 |
Hydrosilylation, alkynes. a | 138 |
Hydrotalcitcs, catalyst support | 26 |
Insulators, single-molecule, trans -Pt(II) complex a | 137 |
Ion Source, high temperature, of Pd a | 136 |
Ion Transfer, IrCI6, across liquid interface a | 137 |
Ionic Liquids, solvents a | 191 |
Iridium, films, by MOCVD a | 39 |
Ir(III), surface, for electrolyte hydration | 106 |
thin films, by DC sputtering a | 42 |
Iridium Alloys, (Ir, Rh)75,Nb15Ni10, specific strength | 74 |
Ir-Nb, Ir-Zr, Ir-Nb-Ni, Ir-Nb-Ni-Al | 74 |
Pt-Ir, jewellery alloy | 66 |
superalloys, refractory: creep, ductility, fracture | 74 |
Iridium Complexes, IrCl61, ion transfer a | 137 |
[Ir(DPF)3], electrophosphorescence a | 137 |
luminescence | 137, 165 |
Iridium Compounds, electrodes a | 137.188 |
IrO2, thin films, by DC sputtering a | 42 |
IrO2/PLZT/Pt, capacitors a | 42 |
Isomerisation, n -decane, | 189 |
lsoxazolidines, synthesis a | 190 |
Jewellery, Pt, Pt alloys, welding by laser | 66 |
Johnson Matthey, ACT™, Power Coatings™ | 181 |
catalysis for fuel cells, research | 106. 64, 117, 146 |
FibreCat™ | 24, 190 |
PGM Conference competition winners | 166, 167 |
“Platinum 2002” | 116 |
Rhodium Bicentenary Competition, winner | 2 |
Ketones, synthesis | 106, 41, 191 |
hydrogenation | 82, 138 |
Kumada-Tamao-Corriu Couplings | 50 |
Lasers, to drill cavities in Pt wire electrodes | 72 |
welding of Pt jewellery | 66 |
Lignin, hydrogenation | 167 |
Liquid Crystals, Rh carboxylate polymers a | 188 |
Luminescence, electrochemi-, Ir(ppy)3, a | 137 |
Ru(bpy)32*. a | 39. 137 |
Ir terpyridyls | 165 |
Os(II) polypridines, dendrimers a | 85 |
photo-, Ir(ppy)3 a | 137 |
Pt(II) quaterpyridine a | 39 |
Ru(bpy)32+. a | 137 |
Pt octaethylporphyrin a | 137 |
Luminescence (cont.) | |
Ru terpyridyls | 165 |
Ru(II) polypridines, dendrimers. a | 85 |
Macrocycles, Pd(lI), Pt(II) a | 39 |
Magnesium, Al-Mg-Pd, melt oxidation a | 38 |
Magnetism, in CoCrPt perpendicular media a | 191 |
in CoCrPtB layers, on TiZr underlayers. a | 140 |
in SrCuRhO, SrNiRhO a | 136 |
Mass Spectrometry, differential electrochemical a | 42 |
laser-activated membrane introduction, LAMIMS, a | 190 |
Medical Uses a | 88 |
PGM Conference | 165. 166 |
Melting Points, Pt, Pt alloys | 66. 181 |
MEAs, in fuel cells | 106, 117. 140, 146 |
Membranes, Pd-Ag, for CH4 decomposition a | 189 |
Pd-ceramic a | 86 |
SPE, with Pt particles a | 40 |
Memory, capacitors for | 88, 107 |
L.-Menthol. commercial synthesis | 82 |
Metathesis, of olefins. RCM. ROMP a | 87 |
ring-closing enyne. a | 140 |
Methanation, CO2 a | 86 |
Methane, activation a | 87 |
decomposition a | 189 |
partial oxidation | 24 |
steam reforming a | 191 |
Microwaves, in phenylation of aroryl chlorides a | 87 |
in synthesis of [RuCp(dppm)SR]. a | 136 |
MOCVD, Ir films a | 39 |
Myrcene, oxidation a | 190 |
Nanocomposites, Pd:Ag, physical properties a | 84 |
Pt-Ru/GCNF, for DMFC anodes | 14 |
RuO2/C, supercapacitors a | 88 |
see also Composites | |
Nanocrystalline Powders, Pd:Ag. a | 84 |
Ti,Fe,Ru2O4, in supercapacitors | 105 |
Nanocrystals, Pt-Ru, on GCNF | 14 |
Nanoparticles, Pd, on Al2O3NiAl, model catalyst a | 190 |
embedded in ZrO2. H2 absorption a | 188 |
in H2o-in-oil microemulsions a | 38 |
stabilised by polyfluorinated chains a | 84 |
Pt. 3D networks. Al-organic-stabilised | 105 |
on γ-Al2O3, catalysis | 115 |
on C nanospheres, a | 38 |
with nano diamond films, as electrodes a | 84 |
preparation a | 136 |
in Pt, Pt alloys, fuel cell electrocatalysts | 106, 88, ! 17, 146 |
Pt, Pt/Ru, surface diffusion of chemisorbed CO | 106 |
Nanostructures, PGM Conference | 165 |
Pt-Ru electrodes, for fuel cells, 0 | 191 |
Nanowires, Pt. a | 136 |
(S)-(+)-Naproxen, synthesis | 82 |
Nitrogen Oxides, NO, decomposition a | 86 |
sensor a | 40 |
NOx, adsorbers | 27 |
DeNOx, catalysts | 27 |
reduction | 24, 41 |
selective catalytic reduction of diesel emissions | 27 |
Nitroxides, reactions with Rh porphyrin alkyls a | 188 |
NMR, multi-, aqueous products of Pt(Ypy)2(NO3)2, a | 188 |
Nobel Prize, Chemistry, chiral-catalysed reactions. | |
pgm catalysts | 82 |
Noril'sk, PGE geology, conference | 177 |
l-Octene, reactions | 41, 176 |
Ohmic Contacts, see Electrical Contacts | |
OLEDs, [Ir(DPF)3] in PVK/PBD a | 137 |
Olefins, dihydroxylation. asymmetric a | 191 |
as H acceptors a | 40 |
Kharasch addition, of CCl4, a | 87 |
metathesis: RCM, ROMP a | 87 |
with Pt(II) β-diketonates, photoreactions a | 39 |
Oligomerisation, phenylacetylene. a | 190 |
Osmium, electrodeposition u | 189 |
Osmium Alloys, electrodeposition, a | 189 |
Osmium Complexes, in glucose sensors, a | 40 |
ground and excited states | 106 |
luminescence, a | 85 |
Os3(CO)12, pyrolysis, a | 88 |
Os,bipy-modified DNA, voltammetric analysis a | 138 |
[Os(L-L)2(eilatin)]2+, dimerisation a | 136 |
Osmium Compounds, osma-aromatics, osmabenzenes | 106 |
OsO4, in DNA voltammetric analysis, a | 138 |
Os(VIII), oxidation state | 165 |
Oxidation, alcohols | 106, 26, 42, 84, 191 |
alkenes, a | 39 |
chiral-catalysed | 82 |
electro-,CO | 106,106,191 |
formaldehyde, formic acid | 106 |
H2 | 117 |
MeOH | 106, 106, 146 |
ethers a | 87 |
glucose | 106, 138 |
hydrocarbons a | 86 |
liquid organic waste | 18 |
melt, Al-Mg-Pd a | 38 |
MeOH a | 42, 84 |
myrcene a | 190 |
NH3 | 24 |
partial, CH4 | 24 |
[Pt11Cl2(H2enda)] a | 84 |
thiophenea | 138 |
VOCs, a | 138, 189 |
wet, phenol a | 138 |
Oxygen, reaction with CO, a | 40 |
reduction reaction, ORR, for Osx(CO)n/Vulcan C, a | 106 |
on Pt/C, for fuel cells a | 42 |
sensors a | 137 |
Palladium, AlMgPd ceramic composites, formation, a | 38 |
cathodic reactivity, in superdry conditions | 94 |
circuit patterns, on polyimide a | 137 |
interaction with H2 | 37, 169 |
ion source a | 136 |
nanoparticles, a | 38, 84, 188, 190 |
Pd in poly(para -phenylene), phosphorescence | 187 |
Pd:Ag, nanocomposite a | 84 |
Pd-H, structural changes | 169 |
Pd-rare earth systems, phase diagrams | 108 |
Pd/n+-GaAs ohmic contacts, + Ge, Sn layers a | 88 |
[Pdm-, M+, MX], [Pd,”, Μ*,(MX)], electrogenerated | 106 |
solid solutions of H | 169 |
thin films a | 85, 189 |
Palladium Alloys, Ag-Pd-Gd-Ru a | 38 |
Al-Mg-Pd, melt oxidaton a | 38 |
Al-Pd-Co, U-, V-phase, structures a | 38 |
dental, Ag-Au-Pd-Cu a | 88 |
interaction with H2 | 37, 169 |
membranes a | 86, 189 |
Pc10Cu30P20Ni10, a | 136 |
Pd13Ni10Cu27P20 melts, crystallisation, a | 38 |
Pd-Er-H, Pd-W-H, structural changes | 169 |
Pd-Pt, interaction with H2 | 37 |
Pd-rare earths | 108 |
Pt-Pd, jewellery alloy | 66 |
Ti(PdNi), shape memory a | 188 |
Palladium Complexes, (BQA)PdCl, preparation a | 38 |
(C7H13NH)2[Pd(dmit)2], air-oxidation of a | 39 |
(C7H13NH)[Pd(dmith)2], electrical conductivity, a | 39 |
Pd(II) N2S2 macrocycles, synthesis a | 39 |
Pd(II) with pincer-like amido ligand a | 38 |
in poly(para -phenylene), synthesis | 187 |
[Pd11Cln, formation, at C paste electrode a | 85 |
Palladium Compounds, Pd(NH3)4Cl2, reduction, a | 38 |
Na2(Pd2Cl6), reduction a | 84 |
Patents 43-7,89-91,141-143, | 192-194 |
pH, sensors a | 189 |
Phase Diagrams, Ag-Pd-Gd-Ru a | 38 |
Ir-Nb-Ni, Ir-Nb-Ni-Al | 74 |
Pd-rare earth systems | 108 |
Phase Transformation Kinetics, Pd-H, Pd-Er-H, | |
Pd-W-H | 169 |
Phenols, hydrogenation a | 86, 190 |
wet oxidation, a | 138 |
Phenylation, aroyl chlorides, a | 87 |
Phosphorescence, from Ir-based OLEDs a | 137 |
from Pd-poly(para -phenylene) | 187 |
Photocatalysis, in Pt(II) quaterpyridine complex a | 39 |
Photoconversion, a | 106,85, 137, 189 |
PGM Conference | 165 |
Photoluminescence, see Luminescence | |
Photoproperties, Pt-phenylene ethynylene | |
monomers, polymers, a | 189 |
Ru(phen)2(3-carbethoxy,4-hydroxy-phen)2+(PF6)2, a | 189 |
Ru polypyridines, biomimetic assemblies, a | 85 |
rac -[Ru(bpy)2(PhP(OMe)2(Cl)]Cl,a | 85 |
Ru(II) bipyridyls. dendrimeric oligomers | 165 |
Photoreactions, Pd(II) to Pd, by UV irradiation a | 137 |
[(PEt3),HPt(μ-H2)Pt(PEt3)2][BPh4], Pt-Pt homolysis | ;,a 85 |
[(PEt3),HPt(μ-H2)PtH(PEt3)2][BPh4], Pt homolysis, a | is,a 85 |
[(PEt32PtH2], [(PEt3)2PtH(S)][BPh4], formation, a | 85 |
Pt(II) β-diketonates, with olefins, a | 39 |
Rh/Tio2, CO2 reduction, by H2 a | 39 |
Photosynthesis, Ru polypyridines, as models, a | 85 |
Plperidines, from unsaturated N -chloroamines, a | 139 |
“Platinum 106” | 116 |
Platinum, ACT™, Power Coatings™ | 181 |
addition to, (NdEuGd)BaCuO, effects, a | 42 |
capacitors | 106, 88, 107, 189 |
cathodic reactivity, in superdry conditions | 94 |
colloids | 106, 136 |
drilling, by laser | 72 |
electrodes, see Electrodes | |
etching, using BCl3/Cl2 gas plasma a | 140 |
films | 107 |
in glass making | 181 |
laser welding, jewellery | 66 |
melting point | 66, 181 |
nanoparticles | 106, 84, 88, 105, 106, 115, 136 |
nanowires, a | 136 |
ohmic contacts, Pt/Si interlayers/p -type SiC a | 191 |
in O sensors, a | 137 |
particles, electroless plated, on SPE membranes, a | 40 |
for solar cell electrodes a | 39 |
[Pt2, Na+, Nal], reduction of 2,4-dinitrotoluene | 94 |
Pt(III), surface, for electrolyte hydration | 106 |
[Ptn, M+, MX], [Ptx, M+, (MX)], electrogenerated | 94 |
single crystals, for CO electrooxidation a | 84 |
thermal diffusivity | 66 |
thin films, a | 106,88,189 |
welding, laser | 66 |
Platinum Alloys, CoCrPt film, perpendicular media. | |
magnetic properties a | 191 |
CoCrPtB perpendicular media on TiZr, | |
magnetic properties a | 140 |
electrodes, see Electrodes and Fuel Cells | |
films a | 140 |
in glass making | 181 |
jewellery, Pt alloys | 66 |
laser welding, jewellery | 66 |
melting points | 66, 181 |
nanoparticles | 88, 106 |
Pt-Pd, interaction with H2 | 37 |
Pt-Rh, coatings, ACT™ | 181 |
thermal diffusivities | 66 |
welding, laser | 66 |
Platinum Complexes, trans -Pt(II), insulator, a | 137 |
(BQA)PtCl, preparation a | 38 |
(η-C2H4)(Cl)Pt(μ-Cl)2Ru(Cl)(η3:η3-2,7-dimethyl- | |
octadienyl), nanocrystal precursor | 14 |
(COD)PtCI2 + dimethylphenyl(quinolinyl)amine, a | 38 |
luminescence, a | 39, 137 |
Platinum Complexes, (cont.) | |
photoproperties, a | 189 |
photoreactions, a | 39. 85 |
precursors for CVD, a | 38, 107,189 |
[Pt,Cl2){N (H)C(Bu')O}4], Pt(III)-Pt(III) distance a | 136 |
[Pt2I2{N (H)C(Bu')0}4], a | 136 |
Pt octaethylporphyrin, in O sensor a | 137 |
Pt phthalocyanine, electrochemical doping of a | 85 |
[PtlvCl2(enda)], by oxidation of [Pt11Cl2(H2enda)] a | 84 |
[Pt(Cn)(H2O)2]2*, reaction with DL-penicillamine a | 84 |
Pt(II) acetylacetonate, reaction with Al(CHi)2. | 105 |
Pt(U) N2S2 macrocycles, synthesis a | 39 |
Pt(II) with pincer-like amido ligand a | 38 |
Pt(III) ‘lantern-shaped’ a | 136 |
PtR2(COd), ligand displacement reactions a | 136 |
PtR2L1, H2O-soluble diorgano-, synthesis a | 136 |
cis-. rran.s-Pt(Ypyh(NOiK aquation, hydrolysis a | 188 |
[RhbPMCO)i,,(dppm).,], [Rh»Pt2(CO)2,(dppm)2] a | 38 |
Platinum Compounds,antitumouragents | 106, 165, 166 |
electrodes a | 88 |
K;[Pt(C2O4)2], K2PtCl4. K2PtCU. reduction a | 136 |
thin films, α | 88 |
Platinum Group Elements, geology book | 17 |
geology conference | 177 |
Pollution Control, organic wastes, destruction | 18 |
wastewater, electroflotation a | 137 |
see also Emission Control | |
Polymerisation, co- a | 139 |
fast living radical a | 140 |
ofphenylacetylene.i/ | 106,190 |
ROMP a | 87 |
Polymers, coordination, Rh carboxylates a | 188 |
matrix, for Pt complex thin film O sensor a | 137 |
polyimide, with Pd circuit patterns a | 137 |
poly(para-phenylene) + Pd, phosphorescence | 187 |
polystyrenes, hydrogenation a | 86 |
Pt-phenylene ethynylenes, photoproperties a | 189 |
PVKyPBD, with [Ir(DPF),], for OLEDs. a | 137 |
Power Coatings. ™, for the glass industry | 181 |
Propane, CO2 reforming of. a | 41 |
dehydrogenation a | 40 |
Propene, for reduction of NOx | 24,41 |
Pyridines, chloro-, alkoxycarbonylation a | 87 |
Rare Earths, Pd-rare earths, eutectic phases | 108 |
solid solublities in Pd1 strengthening effects | 108 |
RCM a | 87. 140 |
Reactors, fixed bed catalyst, design aspects | 144 |
hydrogen-permeating membrane a | 189 |
for liquid phase batch hydrogenations | 48, 92 |
Reduction, CO2, by H2 a | 39 |
electron transfer, of 2,4-dinitrotoluene | 94 |
Ο,,α | 42 |
Reforming a | 41, 191 |
Rhodium, Rhodium Bicentenary Competition | 2 |
Rhodium Alloys, (Ir, Rh)75Nb15Ni10. specific strength | 74 |
Pt-Rh, coatings, ACT™ | 181 |
jewellery alloy | 66 |
Rhodium Complexes, [Rh6Pt4(CO)16(dppm)3], | |
[Rh»Pt2(CO)2,(dppm)2] a | 38 |
Rh porphyrin alkyls, reactions with nitroxides a | 188 |
tetra(alkoxybenzoato)dirhodium(II), liquid crystals. a | 188 |
pyrazine adducts, liquid crystals a | 188 |
TpmsRh(LL) (LL = (CO)2, cod, nbd), Rh(I) chemistry, a | 84 |
Rhodium Compounds, Sr1CuRhO6, SriNiRhO, a | 136 |
ROMP a | 87 |
Rosenmund Reduction, acid chlorides | 73 |
effect of H2O | 48 |
Russia, PGE geology, conference | 177 |
Ruthenium, electrodes | 106 |
Ru-doped InP, resistivities a | 42 |
Ru(OOl), surface, for electrolyte hydration | 106 |
Ruthenium Alloys, Ag-Pd-Gd-Ru a | 38 |
electrodes, see Electrodes and Fuel Cells | |
nanoparticles | 88. 106 |
Ruthenium Alloys {cont.) | |
Pt-Ru, jewellery alloy | 66 |
Ta/Ru buffer layer, for CoCrPt perpendicular media a | 191 |
Ruthenium Complexes, bis(rf-2.4-dimcthyl- | |
pentadienyl)Ru(II), for vapour-phase epitaxy a | 42 |
cancerdrugs | 106,166 |
(n-C2H4)(Cl)Pt^-Cl)2Ru(CI)(^':n‘-2,7-dimethyl- | |
octadienyl), nanocrystal precursor | 14 |
luminescence | 106. 85, 137, 165 |
(2-MeImHHRuClj(2-McIm);], | |
(2-MeImH)2[RuCl5(2-MeIm)l, synthesis a | 84 |
photoproperties | 106. 165, 189 |
[RuCp(dppm)SR], microwave-assisted synthesis a | 136 |
[RuH(arene)(Binap)]CFiSO.i, piano-stool inverted a | 188 |
[Ru(L-L)2(eilatin)]:+, dimerisation a | 136 |
Ruthenium Compounds,electrodes | 106, 105, 137. 188 |
LaSrCrRuO, SOFC anode material a | 191 |
RuO2 powders, from RuCl1 thermal decomposition a | 137 |
Selective Catalytic Reduction, + diesel particulate filter | 27 |
NOx | 27 |
Sensors, glucose, a | 40. 86 |
H2 a | 189 |
hydrocarbons a | 40 |
in vivo biological | 72 |
NO a | 40 |
0^,o | 137 |
pH,fl | 189 |
Shape Memory Effect, in Ti(PdNi) u | 188 |
Silanes | 106. 50, 138, 139. 140 |
Single Crystals, Pt. CO electrooxidation u | 84 |
Sol-Gel, Pt-doped SnO2 thin films a | 85 |
RuO2, RuO2Hl anodes a | 137 |
Solar Cells, with Pt particles on /i-Si electrodes a | 39 |
Sonogashira Couplings, of terminal alkynes | 50 |
South Africa, PGE geology, conference | 177 |
Sputtering, DC films. Co-Pt a | 140 |
thin films, Ir, IrO2. a | 42 |
reactive r.f. magnetron, thin films. Pt-PtO, a | 88 |
thin films. Pd-Ag. for Pd-ceramic membranes a | 86 |
Stille Couplings, aryl halides + organostannanes | 50 |
Sulfuric Acid, Ti/Ir02-Ta05 anodes, degradation a | 188 |
Superalloys, Ir-based refractory | 74 |
Supercapacitors, Ru02/C. nanoconiposite. a | 88 |
Ti2FeRuO2. Ti,Fe,RuO,,. nanocrystalline | 105 |
Superconductors, Pt + CeO^ additions 0 | 42 |
Suzuki Couplings, FibreCat™. Pd/C. a | 190 |
Pd-polymer-bound phosphine. a | 191 |
Suzuki-Miyaura Couplings | 50 |
Tetraalkylammonium Salts, effects on Pd. Pt cathodes. | |
in superdry conditions | 94 |
Tetralins, amino-, synthesis a | 191 |
Thermal Diffusivities, Pt, Pt alloys | 66 |
Thin Films, Ir, IKX by DC sputtering a | 42 |
Ni/Pd, XRD a | 85 |
Pd. circuit patterns on polyimide a | 137 |
Pd, for poly-Si wires, as H2 sensors a | 189 |
Pd-Ag. for ceramic composite membranes a | 86 |
Pt, by chemical vapour deposition a | 189 |
Pt octaethylporphyrin. for O sensors a | 137 |
Pt-doped SnO2. sol-gel preparation a | 85 |
Pt-PtO,, for memory capacitor electrodes a | 88 |
Ti(PdNi), shape memory behaviour. 0 | 188 |
see also Films | |
Thiopenes, oxidation a | 138 |
Three-Way Catalysts | 106. 40 |
Tungsten, Pd-W-H. H effects on | 169 |
Pt-W. jewellery alloy | 66 |
VOCs,oxidation.ii | 106, 189 |
VoItammetry, (DNA-Os,bipy). microanalysis a | 138 |
Water, waste, electrode system for electrofiotation a | 137 |
Welding, laser, of Pt jewellery | 66 |