SUBJECT INDEX to Volume 50217-222

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SUBJECT INDEX TO VOLUME 50

Page Page

a= abstract

Acetic Acid,from syngas, a 209

Acetylenes,hydrogenation, selective 156

polymerisation, a 210

ADMET,production of specialty polymers 81

Alcohols,aryl, coupling, of amines, a 106

benzyl, oxidation, a 106

cyclohexanol, oxidation, a 106

EtOH, from Fischer-Tropsch reaction 22

MeOH, electrooxidation, a 107, 153

fuel, for fuel cells 38

oxidation, a 210

reforming 22

sensor, a 152

oxidation, aerobic, a 153, 209

Aldehydes,aromatic, oxidation, a 106

Alkanes,oxidation, partial, a 106

propane, dehydrogenation 22

Alkenes,metathesis 35

Alkylation,asymmetric allylic, a 48

Alkynes,addition, to cyclopropenes, a 106

cyclisation 171

hydrogenation 22, 194

Amination,aryl, in sc-CO2, a 48

Buchwald-Hartwig, a 49

Amines,coupling, of aryl alcohols, aryl halides, a 106

oxidation, aerobic, a 209

Aniline,oxidation, by PtCl62–, a 151 Aromatisation,pyrolysis gasoline 194

Aryl Halides,in reactions, a 48, 106, 153 N-Arylation,N-silyl derivatives, a 48

Arylboronic Acids,Suzuki-Miyaura couplings, a 153

Biaryls,by Suzuki coupling, a 106

Biomolecules,sensor, a 105

Book Reviews,“Electrodeposition of the Precious Metals” 67

“Principles of Fuel Cells” 200

“Ruthenium in Organic Synthesis” 95

“Supported Metals in Catalysis” 20

Brazil,PGEs, geology 13, 134

Buchwald-Hartwig Couplings,microwave-assisted, a 49

Bushveld Complex 130, 134

Cancer,anti-, Pt complexes, a 49

Ru-pac complexes 2

Capacitors,RuO2/TiO2nanorods, a 208 Carbenes 35, 48, 104, 150, 153, 171, 209

Carbocycles,synthesis, through metathesis 81

Carbon Oxides, CO,hydrogenation, a 209

oxidation 22, 106, 152, 177

selective 22, 48, 152, 194

as probe for Pt 21

tolerance, of PEMFC anodes 200

CO2,reduction, Ru catalysis 95

supercritical, solvent, a 48

tolerance, of PEMFC anodes 200

Carbonylation,Ru catalysis 95

Carbonyls,reduction, to alcohols, a 209

Carboxylic Acids,formic, oxidation, a 48

Catalysis,asymmetric 54, 107

book reviews 20, 95

conferences 22, 64, 177, 194

François Gault Lectureship, Johnson Matthey Award 22

fundamental studies; theoretical methods 22

heterogeneous, a 48, 105–106, 152, 209

homogeneous, a 48–49, 106–107, 153, 209–210

metathesis reactions, 2005 Nobel Prize for Chemistry 35

by supported metals 20

Catalysts,activity, test: microreactor; pilot plant 52

book reviews 20, 95

conferences 22, 64, 177, 194

contaminant levels 52

Catalysts, (cont.)

deactivation, in catalyst design 22

electrochemical promotion 22

improving service life 52

N2O greenhouse gas abatement 103

poisons, Hg, removal 156

S species 110

recycling, a 48, 106, 153, 209

S additions, activity control 110

supported, application, characterisation, preparation 20

three-way, see Three-Way Catalysts

Catalysts, Iridium,Co/alumina, + Ir, Fischer-Tropsch 22

electrocatalysts, PtIrCo, for PEMFCs 202

Catalysts, Iridium Complexes,Ir phosphine,

cyclisation of alkynes 171

[Ir(COE)2Cl]2/dppe, methyl oleate hydroboration, a 210

Ir(III) N-heterocyclic carbene, H transfer reduction 171

Catalysts, Palladium,Au-Pd, oxidation of CO, + H2 194

synthesis of H2O2 194

AuPtPd/SiO2-Al2O3, naphthalene hydrogenation, a 152

coupling of aryl alcohols, aryl halides, + amines, a 106

electrocatalysts, Pd-Co, Pd-Cr, Pd-Ni, for DMFCs, a 107

Pd, addition, TiO2, degradation of organics 22

+ Ag, hydrogenation of acetylene 194

CH4combustion 64

foil, pentyne hydrogenation 22

for motorcycles, a 105

oxidative reactions, diesel, gasoline 64

S-poisoned, regeneration, for CH4combustion 177

surfaces, pentyne hydrogenation 22

Pd + Au/alumina (from Ni3Al (111) single crystal) 22

Pd monolith + Pt/Rh/Ce monolith TWC 177

Pd nanoparticles-polymer, fine chemicals synthesis 22

Pd shell-Ni core/MgO, butadiene hydrogenation 22

CO oxidation 22

Pd(111), single crystal, pentyne hydrogenation 22

Pd/Al2O3, CH4combustion 64

Pd/γ-Al2O3, hydrogenation of sunflower oil, a 152

Pd/γ-Al2O3on metallic foams, washcoating method, a 106

Pd/Al2O3/metal foil, CH4combustion 22

Pd/Al18B4O33, CH4combustion 64

Pd/alumina, Hg posioning 156

hydrogenation of acetylenes 156

hydrogenation of dibenzothiophenes 22

pentyne hydrogenation 22

Pd/C, hydrogenation of alkynes 194

Pd/C/asymmetric α-Al2O3membrane, H2O2synthesis 22

Pd/C-coated monoliths, combustion of xylenes, a 209

Pd/polymer fibres, hydrogenation of sterols, a 106

Pd/TiO2, nitrate hydrogenation 22

Pd/TiO2(P25), reforming MeOH, using UV 22

Pd-TiO2film, oxidation of formic acid, a 48

Pd/zeolite, matairesinol production 22

Pd-Cu/γ-Al2O3, NO3– reduction, a 152

Pd-Mn/Al2O3/metal foil, CH4combustion 22

Pd-Pt, CH4combustion 64

diesel oxidation 177

Pd-Pt/alumina, hydrogenation of dibenzothiophenes 22

Pd-Pt/Ce-ZrO2, CH4combustion 64

PdPt nanoparticles-, PdZn nanoparticles-polymer 22

PdO/Al2O3, CH4combustion 64

Pt-Pd/Al2O3, CH4combustion 64

PtPd/C MWNTs, naphthalene hydrogenation, a 152

PtPd/SiO2-Al2O3, naphthalene hydrogenation, a 152

Catalysts, Palladium Complexes,Pd, Suzuki couplings,

microwave-promoted, a 209

Pd carbenes + poly(2-oxazoline)s, couplings, in H2O, a 48

Pd enolates, chiral, enantioselective fluorination, a 210

Pd(II) + N ligands/SiO2, Suzuki couplings, a 48

Pd2dba3+ X-Phos, amination reactions, in sc-CO2, a 48

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Catalysts, Palladium Complexes, (cont.) [Pd(η3_-C

3H5)Cl]2+ chiral fluorous aminophosphine,

asymmetric allylic alkylation, a 48

PdCl2+ PEPPSI-IPr, Negishi reaction, a 209

Pd(DPPF)Cl2, Suzuki coupling, aryl bromides, a 106

Pd(OAc)2+ 2-(di-t-butylphosphanyl)biphenyl, a 49

Pd(OAc)2+ 2-(dicyclohexylphosphanyl)biphenyl, a 49

Pd(OAc)2+ imidazolium salt, SM couplings, a 153

Pd(OAc)2/DMSO + MS3A, alcohol oxidation, a 153

Pd(OAc)2/[(Me)3PH]BF4/Et3N, addition of alkynes, a 106

Pd(OAc)2/P(OCH3)3, Heck coupling, a 48

Pd(OAc)2/pyridine + MS3A, alcohol oxidation, a 153

Pd–phosphine, addition of alkynes, a 106

Catalysts, Platinum,AuPtPd/SiO2-Al2O3,

naphthalene hydrogenation, a 152

BaO/Pt(111), NOx storage 177

CeO2-encapsulated Pt, -encapsulated Pt/Au, WGSR 21

Co/alumina, + Pt, Fischer-Tropsch reaction 22

electrocatalysts, Au/Pt, anodes, for AFCs 38

Pt, for fuel cells 38, 107, 200

polycrystalline, electrode, MeOH oxidation, a 107

porous, electrode, for nano fuel cells, a 107

Pt black layer, MEA, for PEMFCs, a 210

Pt nanoparticles, MeOH oxidation, a 210

Pt nanoparticles/Nafion, for PEMFCs, a 49

Pt/C, cathodes, for AFCs 38

MEA, for fuel cells, a 210

for PEMFCs 49, 202

Pt/C black, cathodes, for PEFCs, a 210

Pt/C cloths, cathodes, for DMFCs, a 49

Pt/SWCNTs, cathodes, for DMFCs, PEMFCs, a 107

Pt/Vulcan XC 72, thermal stability, a 153

Pt/Vulcan XC 72/Nafion layer, thermal stability, a 153

PtBi nanoparticles, MeOH oxidation, a 210

PtCo, for PEMFCs 202

PtCo/C, cathodes, for PEMFCs 202

PtIrCo, for PEMFCs 202

PtMo, anodes, for PEMFCs 200

PtMo/C, anodes, for PEMFCs, a 49

PtPb nanoparticles, MeOH oxidation, a 210

PtRu, anodes, for AFCs 38

anodes, for PEMFCs 200

for DMFCs 38, 202

Pt/Ru/C, electrodes, for DMFCs 38

PtRu black, anodes, for DAFCs 202

PtRu nanoparticles, MeOH oxidation, a 210

PtRuIr/C MWNTs, anodic oxidation of MeOH, a 153

PtSb, MeOH electrooxidation, a 107

PtSn, for DAFCs 202

Pd monolith + Pt/Rh/Ce monolith TWC 177

Pd-Pt, CH4combustion 64

diesel oxidation 177

Pd-Pt/alumina, hydrogenation of dibenzothiphenes 22

Pd-Pt/Ce-ZrO2, CH4combustion 64

PdPt nanoparticles-polymer, fine chemicals synthesis 22

Pt, addition, TiO2, degradation of organics 22

catalytic reforming units 52

hydrogenation of alkyl pyruvates, + ionic liquids 194

Olefex process (propane to propylene) 22

oxidative reactions, diesel, gasoline 64

propane dehydrogenation 22

for reforming 110

soot + NO + O2 177

Pt coated Na-β''-alumina, NOx storage device 22

Pt/Al2O3, + AE oxide, NOx storage-reduction, a 105

pyrolysis gasoline, aromatisation, hydrogenolysis 194

+ RE oxide, NOx storage-reduction, a 105

soot + NO2+ O2 177

Pt/γ-Al2O3+ V, naphthalene oxidation, a 209

Pt/alumina, hydrogenation of dibenzothiophenes 22

Pt/Ba/Al2O3, by one-step flame synthesis 22

NOx storage 22

NOx storage/reduction 177

Catalysts, Platinum,(cont.)

Pt/Ba/CeO2, NOx storage/reduction 177

Pt/Ba/CeZr, NOx storage 177

Pt/C-coated monoliths, combustion of xylenes, a 209

Pt/CeO2, WGSR 21, 22, 194

Pt/ceria-zirconia oxide, + Gd, La, Sm, CH4oxidation 64

Pt/CeZr, NOx storage 177

Pt/mordenite, oxidation of CO, in H2, a 48

Pt/SiO2, CO oxidation, a 152

Pt/TiO2(rutile), preparation, effect of Pt precursor, a 152

WGSR, at low-temperature, a 152

Pt/TiO2thin film, visible light-responsive 22

Pt/YSZ, monolith-type reactor 22

Pt-Ce, soot + NO + O2 177

Pt-Fe, + Na-A zeolite, oxidation of CO, in n-butane 22

Pt-Fe/mordenite, oxidation of CO, in H2, a 48

PtFe/SiO2, CO oxidation, a 152

PtFe2/SiO2cluster-derived, CO oxidation, + H2, a 152

Pt5Fe2/SiO2, cluster-derived, CO oxidation, + H2, a 152

Pt-Pd/Al2O3, CH4combustion 64

PtPd/C MWNTs, naphthalene hydrogenation, a 152

PtPd/SiO2-Al2O3, naphthalene hydrogenation, a 152

Pt-Re, catalytic reforming units 52

Pt-Rh gauze pack 103

Pt-Sn/HZSM-5 zeolite, denitration of drinking H2O, a 48 Catalysts, Rhodium,Pt-Rh gauze pack 103

Pt/Rh/Ce monolith TWC 177

Rh, oxidative reactions, diesel, gasoline 64

Rh coated K-β''-alumina, Fischer-Tropsch reaction 22

Rh-coated foams, alkane oxidation, a 106

Rh nanoparticles, hydroformylation of olefins, a 153

Rh nanoparticles/nanosized SiO2, CO hydrogenation, a209

Rh/C, hydroformylation of olefins, a 153

Rh/LaMnO3, CH4combustion 64

Rh/YSZ, monolith-type reactor 22

Rh-Ce-Mn/SiO2+ CNTs, CO hydrogenation, a 209

Catalysts, Rhodium Complexes,Rh, + β-diiminate,

+ NH3ligands, + phenoxy-imine,

polymerisation of acetylenes, a 210

Rh/BINOL, asymmetric hydrogenation 54

Rh/MonoPhos ligands, asymmetric hydrogenation 54

Rh phosphine, cyclisation of alkynes 171

Rh/phosphoramidites, asymmetric hydrogenation 54

RhCl(TPPTS)3/SiO2, cinnamaldehyde hydrogenation, a 210

Rh(COD)2BF4+ phosphoramidites 54

[Rh(cod)Cl]2, a 210

Rh(III) N-heterocyclic carbene, H transfer reduction 171

[Rh(nbd)Cl]2, a 210

Rhodium Bicentenary Competition, research 171

Catalysts, Ruthenium,carbonylations 95

Co/alumina, + Ru, Fischer-Tropsch reaction 22

CO2reductions 95

electrocatalysts, PtRu, anodes, for AFCs 38

anodes, for PEMFCs 200

for DMFCs 38, 202

Pt/Ru/C, electrodes, for DMFCs 38

PtRu black, anodes, for DAFCs 202

PtRu nanoparticles, MeOH oxidation, a 210

RuSe, cathodes, for DAFCs 202

Fischer-Tropsch reactions 95

oxidations 95

RuCl3, with H2O2, oxidation of organics, a 106

Ru(OH)x/Fe3O4, aerobic oxidations; reductions , a 209

separation, with a permanent magnet, a 209

Catalysts, Ruthenium Complexes,π-allyl-Ru 95

chiral, in asymmetric synthesis, a 107

Grubbs’ catalysts, first, second generation 35

in organic synthesis 95

Ru alkylidenes bearing N-heterocyclic carbenes 35

Ru allenylidenes, cationic, neutral 81

metathesis, ADMET, enyne, RCM, ROMP 81

Ru carbene, asarone-derived, olefin metathesis, a 106

ruthenacycle intermediates, in C–C bond formation 95

Cinnamaldehyde,hydrogenation, a 210

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Coatings,Al-Pt, on Ti6242, a 47

thermal barrier, with PtNiAl diffusion bond coats, a 105

Combustion,catalytic, VOC emissions 64

CH4 22, 64, 177

xylenes, a 209

Composites,Pt-polyaniline, synthesis, a 151

Conferences,9th Grove Fuel Cell Symp., London, 2005 38 10th International Platinum Symposium, Finland, 2005 13

10th Ulm Electrochemical Talks, Germany, 2006 202

CAPoC7, Brussels, 2006 177

EUROPACAT-VII, Bulgaria, 2005 22

IWCC6, Isle of Ischia, Italy, 2005 64

SURCAT 2006, Cardiff, 2006 194

Coupling Reactions,industrial-scale, a 106

Creep,Ir, high temperature 158

CRT®,for diesel emission control 177

Crucibles,Ir 29, 158

Crystallographic Properties,Pt 118

CVD,Pd, Pd-Pt bilayer, Pt, films, on polyimide, a 208

Cyclisation,alkynes 171

Cycloolefins,ROMP 81

Cyclopropanation,Ru catalysis 95

Cyclopropenes,addition of alkynes, a 106

Dehydrogenation,propane 22

Denitration,drinking H2O, a 48 Dental,Au-Ag-Pd-In alloy, precipitation hardening, a 49

Deposition,Ag–Pd films, a 208

electroless, Pd nanowires, a 151

electrostatic spray, Pt/C MEA, a 210

photocatalytic, Pd membranes, a 209

TiPdNi thin films, a 105

Dibenzothiophenes,hydrogenation 22

Dienes,butadiene, hydrogenation 20, 22

Diesel,oxidation catalysts 64, 177

Diffusion,volume, Au, into single crystal Ir 29

Diffusion Couples,Sn/Pd/Sn, a 46

Electrical Conductivity,Magnus’ salt derivatives, fibres112

Electrical Contacts,ohmic, Ni/Pd, oxidised; Pd, a 153

Schottky, Pd/GaAs, Pd/porous-GaAs, H sensing, a 105

Electrical and Electronic Engineering,a 107, 153

Electrical Resistivity,Pd 144

Electrochemical Promotion,catalysts 22

Electrochemistry,a 47, 151, 208 cathode reactivity, of platinised Pt, in super-dry DMF 180

polymerisation, C2H2, a 208

[Ru(bpy)(bpy-C60)]2+, [Ru(tpy)(tpy-C60)]2+, a 150

synthesis, Pt-polyaniline composite, a 151

Zr-Pd, Zr-Pt, in different solutions, a 47

Electrodeposition,Ir, Os, Rh, Ru 67

Pt-Cu nanowires, a 107

RuO2, on electrospun TiO2, a 208

Electrodeposition & Surface Coatings,a47, 105, 151, 208

Electrodes,in fuel cells, see Fuel Cells

micro-, array, Pd plated B-doped diamond, a 105

Pd nanoparticles/B-doped diamond, a 105

platinised Pt, cathode, reactivity, in super-dry DMF 180

polypyrrole films, + Ir, Pt, Ru particles, H evolution, a151

Pt, with ferroelectric films, a 153

Pt-Zn porphyrin nanocomposite/Nafion/glassy C, a 47

Rh, roughened, polymerisation of C2H2, a 208

RuO2–IrO2–SnO2/Ti, preparation, characterisation, a 208

RuO2/TiO2nanorods, a 208

SrRuO3, with ferroelectric films, a 153

Electroless Plating,Ir, Os, Pd, Pt, Rh, Ru, Pt-Rh 67

Pd nanowires, a 151

Electrospinning,Magnus’ salt derivatives, to fibres 112

Elongation,by tensile tests, Pt-Cu, Pt-Ru 15

Emission Control, motor vehicles 64, 177

VOCs, catalytic combustion 64

Enthalpy of Fusion,Pd 144

Enyne Metathesis,in synthesis 81

Fibres,Magnus’ green salt derivatives 112

Films,FePt nanocubes, a 107

Pd, Pd-Pt bilayer, Pt, on polyimide, a 208

platinised Pt, reduction 180

polypyrrole, + Ir, Pt, Ru particles, H evolution, a 151

‘Final Analysis’ 52, 110, 156

Fine Chemicals,synthesis 20

Fischer-Tropsch Reactions,Rh coated K-β''-alumina 22

Ru catalysis 95

Fluorescence,[Ru(bpy)(bpy-C60)]2+, a 150 Fluorination,enantioselective, a 210

Fracture,Ir 158

Fuel Cells,a 49, 107, 153, 210

AFC 38, 200

book review 200

conferences 38, 202

DAFC, electrocatalysts 202

DMFC, electrocatalysts 107, 200, 202

electrodes 38, 49, 107, 202

electrooxidation, MeOH, a 107

ORR, a 49

electrocatalysts 38, 153, 210

electrochemical losses 200

fuels 22, 38, 152, 200, 202

Fuel Cell Knowledge Transfer Network 119

MCFC 200, 202

membrane electrode assemblies 38, 49, 107, 200, 202, 210

nano, a 107

PAFC 200

PEFC, Pt/C black + Nafion ink, a 210

PEMFC, anodes 49, 202

CO tolerance, CO2tolerance 200

cathodes 107, 202

electrocatalysts 38, 49, 200, 202

Pt/Vulcan XC 72/Nafion layer, thermal stability, a 153

power, auxiliary supplies 22, 38

consumer electronics 38

Pt, availability, recovery, recycling 38

SOFC 200

transport, road vehicles: buses, cars, motorbikes 38

Fuels,H2 22, 38, 48, 152, 202

MeOH 38

Gasoline,emissions, catalytic oxidation 64

Gauzes,Pt-Rh 103

Geology,Pt 13, 130, 134

Hardening,Ir-Hf-Nb, a 46

precipitation, Au-Ag-Pd-In, a 49

Heat Capacity,isobaric, Pd 144

Heck Reactions,a 48

Heterocycles,synthesis, through metathesis 81

High Pressure,synthesis, CePtSn, a 46

High Temperature,mechanical properties, Ir 158

synthesis, CePtSn, a 46

ultra-, Rh3X, thermophysical properties 69

High Throuhput Screening,ligands, used in catalysis 54

History,Frédéric Joliot-Curie, Iréne Joliot-Curie 97

Hans Merensky 130

Ir discovery, Smithson Tennant, commemorative plaque 77

metathesis, alkenes 35

Os discovery, commemorative plaque 77

Pd isotopes, discoverers 97

Pd print, Alfred Steiglitz; platinotype, Edward Steichen 78

Pt, discovery, in the Bushveld Complex 130

Pt, roubles, production, refining 120

Hydrazine,sensor, a 105

Hydroboration,methyl oleate, a 210

Hydrocarbons,oxidation 64, 106

processing applications 110

Hydrodearomatisation,pgm/alumina 22

Hydrodesulfurisation,pgm/alumina 22

Hydroformylation,solventless, olefins, a 153

Hydrogen,absorption, into Pd81Pt19foil, a 104

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Hydrogen,(cont.)

evolution, from polypyrrole, + Ir, Pt, Ru particles, a 151

fuel 22, 38, 48, 152, 202

isotope separation, a 208

microwave plasma irradiation, Co-Pd, a 207

permeation, of Pd membranes, a 152, 208, 209

presence, CO oxidation 48, 152, 194

production 20, 22, 47

sensor, a 105

Hydrogen Peroxide,+ RuCl3, oxidation of organics, a 106

synthesis 22, 194

Hydrogenation,alkyl pyruvates 194

alkynes 194

asymmetric 54

asymmetric transfer, a 107

butadiene 20, 22

cinnamaldehyde, a 210

CO, a 209

dibenzothiophenes 22

naphthalene, a 152

nitrates, in H2O 22

in organic synthesis 95

pentyne 22

selective, acetylenes 156

sterols, a 106

sunflower oil, a 152

transfer, in organic synthesis 95

α,β-unsaturated carbonyl compounds 20

Hydrogenolysis,hydroxymatairesinol 22

pyrolysis gasoline 194

Imines,transfer hydrogenation, asymmetric, a 107

Ionic Liquids 153, 194

Iridium,creep, high temperature 158

crucibles 29, 158

discovery, commemorative plaque 77

electrodeposition, electroless deposition 67

high-temperature mechanical properties 158

impurities, mass transfer 29

particles, in polypyrrole films, H evolution, a 151

single-Ir, volume diffusion of Au 29

stress-rupture strength, high temperature 158

tensile strength, high temperature 158

vacancy-impurity complexes, growth 29

Iridium Alloys,Ir-Hf-Nb, hardening behaviour, a 46

superalloys, refractory, a 46

Iridium Complexes,Ir N-heterocyclic carbenes 171

trans-[IrCl(C8H14)(PiPr3)2] + benzene, a 208

IrCl(CO)2(p-toluidine) + tetraphenylporphyrin, a 150

[Ir(dF(CF3)ppy)2(dtbbpy)](PF6), electroluminescene, a 47

photoinduced H2production, a 47

[IrH2(Cl)(PiPr3)2], preparation, a 208

[IrH(C6H3F2)(Cl)(PiPr3)2], preparation, a 208

[IrH(C6H4X)(Cl)(PiPr3)2], preparation, a 208

[IrH(C6H5)(Cl)(PiPr3)2], preparation, a 208

[IrH{(C6H3F(CH3)}(Cl)(PiPr3)2], preparation, a 208

Ir(I), inverted N-confused porphyrin, a 150

Ir(III), bis-terpyridyl/pyridyl groups, luminescence, a 104

(MeCp)Ir(COD), precursor for MOCVD, a 151

Iridium Compounds,Ir nitride, synthesis, a 104

IrO2nanorods, by MOCVD, a 151

RuO2–IrO2–SnO2/Ti electrodes, a 208

Isomerisation,methyl oleate, a 210

organic substrates, Ru catalysis 95

Isomerism,[Pt(SC(NH2)2)4][C5O5]·4DMSO crystals, a 47

Isotopes,Pd, discoveries 97

Johnson Matthey,Award for Innovation in Catalysis 22

marketing, N2O abatement catalyst 103

“Platinum 2006” 143

Rhodium Bicentenary Competition 171

Susan V. Ashton, retirement as Editor, a tribute 205

Ketones,H transfer reduction 171

transfer hydrogenation, asymmetric, a 107

Kharasch Addition Reactions,Ru catalysis 95

Lignans,matairesinol production 22

Luminescence,bis-terpyridyl Ir(III), + pyridyl groups, a104

electro-, [Ir(dF(CF3)ppy)2(dtbbpy)](PF6), a 47

Ru(II) polypyridyls, containing 5-aryltetrazolates, a 105

Magnetism,Ce(Pd1–xAgx)2Al3, a 150

CePtSn, a 46

FePt nanoparticles, a 49

FePt/Fe composite nanotubes, a 46

MnxPd1–x, a 150

[Ru(C9H6NO)3]·MeOH, a 47

in separation of Ru(OH)x/Fe3O4, a 209

TbRhIn5, a 207

MEAs 38, 49, 107, 200, 202, 210

Mechanical Properties,high temperature, Ir, a 158

Pt-5 wt.% Cu, Pt-5 wt.% Ru 15

Medical Uses 2, 49, 107

Membranes,Pd, H2permeation, a 152

microfabrication, a 152

permeation, for H isotope separation, a 208

Pd/C coated asymmetric α-Al2O3, H2O2, synthesis 22

Pd/TiO2, by photocatalytic deposition, a 209

reactor; series; Pd, in H2generation, a 152

Metallopharmaceuticals,Ru polyaminocarboxylates 2

Metathesis 35, 81, 95, 106

Methane,combustion 22, 64, 177

emissions, oxidation 64

Methyl Oleate,hydroboration, isomerisation, a 210

Microwaves,in organic synthesis, a 49, 209

plasma H irradiation, Co-Pd, a 207

MOCVD,Al-Pt coatings, on Ti6242, a 47

IrO2nanorods, a 151

Nanocomposites,Pd-polyaniline, synthesis, a 152

Pt-Zn porphyrin, in detection of organohalides, a 47

Nanodroplets,fluorous, in organopalladium sphere, a 207

Nanofilms,polycrystalline Pt, thermal conductivity, a 207

Nanofiltration,solvents, a 153

Nanoparticles,FePt, a 49, 107

Pd, a 105, 151, 152

Pd70Ag30, a 207

Pt, a 47, 49, 210

PtBi, PtPb, PtRu, a 210

Rh, a 153, 209

Nanorods,IrO2, by MOCVD, a 151 Nanotubes,composite, FePt/Fe, a 46

Nanowires,Pt silicide, a 105

Pt-Cu, a 107

self-assembled, Pd, by electroless deposition, a 151

Naphthalenes,hydrogenation, a 152

oxidation, a 209

Naptha,reforming 20

Negishi Couplings,PdCl2+ PEPPSI-IPr, a 209

Nitrates, in H2O 22, 48, 152

Nitric Acid,plants, N2O abatement catalyst 103 Nitrogen,from nitrate hydrogenation, in H2O 22 Nitrogen Oxides, N2O,abatement catalyst 103

NO,+ O2, soot oxidation 177

scavengers, Ru-pac complexes 2

NO2,+ O2, soot oxidation 177

NOx,HC SCR, NH3SCR 177

lean, catalysis 22

storage 22, 177

storage-reduction 105, 177

trap, regeneration, by H2 22

Nobel Prize,Chemistry, metathesis reaction 35

Noble Gases,displacement of H, from Pd, a 46

Oil,sunflower, hydrogenation, a 152

OLEDs,in O2sensor, a 151

Olefex Process,propane, to propylene 22

Olefins,hydroformylation, solventless, a 153

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Optical Properties,Magnus’ salt derivatives, fibres 112

Organohalides,Negishi couplings, a 209

sensor, a 47

Osmium,discovery, commemorative plaque 77

electrodeposition, electroless deposition 67

Hf–Os system, thermodynamic assessment, a 104

patents 27

Oxidation,aerobic, alcohols, a 153, 209

amines, a 209

Al-Pt coatings, on Ti6242, a 47

aldehydes, aromatic, a 106

alkanes, a 106

aniline, a 151

benzyl alcohol, a 106

CH4 64

CO 22, 106, 152, 177

in n-butane 22

in presence of H2 48, 152, 194

cyclohexanol, a 106

electro-, MeOH, a 107, 153

enzymatic 2

formic acid, a 48

hydrocarbons 64, 106

MeOH, a 210

naphthalenes, a 209

Pd0.97Ce0.03, a 150

Ru catalysis 95

soot 177

Zr-Pd, Zr-Pt, a 104

Oxygen,reduction, in fuel cells, a 49, 107

sensors, a 151

Palladium,Ag–Pd films, tarnish resistance, a 208

electrical resistivity 144

electroless deposition 67

enthalpy of fusion 144

film, on polyimide, a 208

H displacement, by noble gases, a 46

isobaric heat capacity 144

isotopes, history of the discoveries 97

membranes 22, 152, 208, 209

nanoparticles, a 105, 151, 152

nanowires, self-assembled, by electroless deposition, a151

ohmic contacts, oxidised Ni/Pd, Pd, a 153

Pd hydride, from Co-Pd, by microwave H plasma, a 207

Pd nanoparticles/B-doped diamond electrode, a 105

Pd plated B-doped diamond microdisc array, a 105

Pd-polyaniline nanocomposite, synthesis, a 152

Pd-Pt bilayer film, on polyimide, a 208

Pd/GaAs, /porous-GaAs, Schottky contact, a 105

print, Alfred Steiglitz 78

Sn/Pd/Sn diffusion couples, a 46

specific enthalpy 144

thermal conductivity 144

thermal diffusivity 144

thermophyical properties 144

Palladium Alloys,Ce(Pd1–xAgx)2Al3, magnetism, a 150

Co-Pd, demixing, a 207

dental, Au-Ag-Pd-In, precipitation hardening, a 49

Fe-Pd shape-memory thin films, stress evolution, a 46

MnxPd1–x, preparation, magnetism, a 150

Pd0.97Ce0.03, oxidisation, a 150

Pd70Ag30nanoparticles, preparation, a 207

Pd40Ni40B10P10, preparation, properties; Pd40Ni40P20, a 46

Pd81Pt19foil, H absorption, a 104

PdSn2, PdSn3, PdSn4, a 46

TiPdNi thin films, shape memory effect, a 105

Zr-Pd, electrochemical behaviour, in solution, a 47

oxidation, a 104

Palladium Complexes,arrow shaped N-donor ligands, a 207

Pd-octaethylporphyrin, OLED-based O2sensor, a 151

Pd2(η2-C60) structure, a 207

PdnC60, DFT calculations, a 207

[Pd(hypy)2]+, DFT modelling, IR spectroscopy, a 207

[Pd(hypy)2]Cl2, a 207

Palladium Complexes, (cont.)

[Pd(hypy)2]Cl2·2MeOH, crystal structure, a 207

Pd(II), with tetrazolecalix[4]arenes, a 104

phospha-palladacycle, with an acyclic carbene, a 104

Palladium Compounds,NbPdSi, structure, synthesis, a150

Particulates,control 177

Patents 50–51, 108–109, 154–155, 211–212

Os 27

Phoscorite-Carbonatite Pipe Complexes,PGEs 134

Phosphoramidites,synthesis 54

Phosphorescence,electro-, PFO-PtTPP, a 47

Photocatalysis 22, 209

Photoconversion,a 47, 104–105, 151

Photoproperties,Magnus’ salt derivatives, fibres 112

Pt-acetylide polymer, a 151

[Ru(bpy)2(5-CNphen)]2+, a 151

Ru(II) fullerene polypyridines, a 150

[(tpy)Ru(bis(U-terpyridine))Ru(tpy)]4+_,_a ₂₀₈

[{(tpy)Ru}3(tris(U-terpyridine))]6+, a 208

Photoreactions,H2PtCl6/Zn porphyrin, + ascorbic acid, a47 Photosensitisers,[Ir(dF(CF3)ppy)2(dtbbpy)](PF6), a 47

[Ru(bpy)2(5-CNphen)]2+, a 151

Plating Baths,Ir, Os, Pd, Pt, Pt-Rh, Rh, Ru 67

Platinotype,photograph, record price 78

Platinum,Al-Pt coatings, on Ti6242, a 47

availability, for fuel cells 38

“blackberry-like”, “cauliflower-like” structures 180

crystallographic properties 118

discovery, in the Bushveld Complex 130

electrodes, a 153

electroless deposition 67

film, on polyimide, a 208

geology 13, 130, 134

nanoparticles, a 47, 49, 210

Pd-Pt bilayer film, on polyimide, a 208

platinised Pt films, reduction 180

polycrystalline, nanofilms, thermal conductivity, a 207

print, Edward Steichen, record price 78

production, history 120

Pt-polyaniline composite, synthesis, a 151

Pt/Co overlayers, adhesion, bonding, a 151

Pt/Ni overlayers, adhesion, bonding, a 151

reactions, with refractories 197

recovery, recycling, from fuel cells 38

refining, history 120

roubles 120

thermal expansion 118

thermal vacancy 118

thermocouples, maintenance, reliability, specification 197

Platinum Alloys,(Fe0.75P0.25)75B25, phase tranformations, a46

FePt nanoparticles, self-assembly, a 107

surface PEGylation, a 49

FePt/Fe composite nanotubes, synthesis, a 46

Pd81Pt19foil, H absorption, a 104

PtBi nanoparticles, a 210

Pt-5 wt.% Cu, mechanical properties 15

Pt-Cu nanowires, electrodeposition, a 107

PtNiAl, diffusion bond coats, a 105

PtPb nanoparticles, a 210

Pt-Rh, electroless deposition 67

Pt-5 wt.% Ru, mechanical properties 15

PtRu nanoparticles, a 210

Rh-Pt thermocouples 197

Zr-Pt, electrochemical behaviour, in solution, a 47

oxidation, a 104

Platinum Complexes,bis(oxalato)platinate(II), PO, a 207

Me3(MeCp)Pt, for MOCVD, a 47

PFO-PtTPP, phosphorescence, a 47

[Pt2–, TAA+, TAAX], [Pt4–, TMA+, TMAX] 180

Pt-acetylide polymer, in solar cells, a 151

Pt-octaethylporphyrin, OLED-based O2sensor, a 151

Pt(II), containing N-bonded acetamide, a 104

containing O-bonded acetamide, a 104

(6)

Platinum Complexes, (cont.)

[Pt(L)Me2], protonation, a 150

[Pt(L)Me(CH3CN)]+, by protonation, a 150

tetra(cyano)platinate(II), PO, a 207

Platinum Compounds,CePtSn, magnetism, a 46

cisplatin, dinuclear analogues, DFT/CDM study, a 107

Magnus’ salt derivatives, fibres, by electrospinning 112

Pt nitride, synthesis, a 104

Pt-silicide nanowires, biomolecule sensing, a 105

Pt-Zn porphyrin nanocomposites, synthesis, a 47

PtCl62–, oxidation of aniline, a 151

reduction, a 151

[cis-{Pt(NH3)2}(μ-OH)]22+, a 107

[Pt(NH2dmoc)4][PtCl4], [Pt(NH2eh)4][PtCl4], fibres 112

[Pt(SC(NH2)2)4][C5O5]·4DMSO crystals, isomerism, a 47 Platinum Group Elements,geology 13, 130, 134

Pollution Control,flame combustion, fossil fuels 20

motor vehicles 177

photocatalysed degradation, organic pollutants 22

Polyaminocarboxylates,Ru complexes 2

Polymerisation,acetylenes, a 210

by metathesis 35, 81

electrochemical, of C2H2, a 208

Polymers,bis(oxalato)platinate(II), partial oxidised, a 207

Pd-polyaniline nanocomposite, synthesis, a 152

PFO-PtTPP, phosphorescence, a 47

polypyrrole films, + Ir, Pt, Ru particles, H evolution, a151

Pt-acetylide polymer, in solar cells, a 151

Pt-polyaniline composite, synthesis, a 151

specialty, by ADMET, ROMP 81

synthesis, Ru catalysis 95

tetra(cyano)platinate(II), partial oxidised, a 207

Protonation,[Pt(L)Me2], a 150 Pyruvates,alkyl, hydrogenation, + ionic liquids 194

RCM,in synthesis 81

Reactors,industrial, hydrogenation of sterols, a 106

membrane, Pd, in H2generation, a 152

micro-, catalyst activity tests 52

monolith-type, YSZ, coated with Pt, Rh 22

pilot-plant, hydrogenation of sterols, a 106

Reduction,asymmetric, carbamates, enamides,

enol acetates 54

to α-alkyl succinic acid derivatives 54

to α-amino acid, β-amino acid, derivatives 54

α,β-unsaturated acids 54

carbonyl compounds, a 209

CO2 95

H transfer, ketones 171

NO2–, NO3–, a 152

O, in fuel cells, a 49, 107

platinised Pt films 180

PtCl62–, a 151

Refining,Pt, history 120

Reforming,catalysts 52, 110

dimethyl ether 22

MeOH 22

naptha 20

Refractories,insulation, for Pt-based thermocouples 197

reactions, with Pt 197

Rhodium,electrodeposition, electroless deposition 67

electrodes, roughened, polymerisation of C2H2, a 208

nanoparticles, a 153, 209

Rhodium Bicentenary Competition, research 171

Rhodium Alloys,Pt-Rh, electroless deposition 67

Rh-Pt thermocouples 197

Rhodium Complexes,Rh N-heterocyclic carbenes 171

Rh(CO)2I(NHC), structure, a 150

Rh(COD)X(NHC), synthesis, structures, a 150

Rhodium Compounds,CeRhIn5, a 207

intermetallic, Rh3X (X = Hf, Nb,Ta, Ti, V, Zr),

thermal conductivity, thermal expansion 69

TbRhIn5, crystal growth, magnetic properties, a 207

ROMP,cycloolefins; production of specialty polymers 81

Roubles,Pt 120

Russia,Pt 13, 130, 134

Ruthenium,electrodeposition, electroless deposition 67

Ruthenium Alloys,Pt-5 wt.% Ru, mechanical properties 15

Ruthenium Complexes,[(C6H6)RuCl2]2+ quinolines, a 47

Ru polyaminocarboxylates, as antitumour drugs 2

as metallopharmaceuticals 2

as NO scavengers 2

as protease inhibitors 2

Ru(bpy)2(5-CNphen)]2+, photoproperties, a 151

[Ru(bpy)(bpy-C60)]2+, electrochemistry, fluorescence, a150

[Ru(C9H6NO)3]·MeOH, magnetism, a 47

Ru(II) polypyridyls + aryltetrazolates, luminescence, a105

[Ru(tpy)(tpy-C60)]2+, electrochemical study, a 150

solar cells, a 47

[(tpy)Ru(bis(U-terpyridine))Ru(tpy)]4+_{, photo,}_a ₂₀₈

[{(tpy)Ru}3(tris(U-terpyridine))]6+, photo, a 208

Ruthenium Compounds,RuO2, electrodeposition, a 208

electrodes, a 153, 208

Selective Catalytic Reduction,HC, NH3 177

Sensors,biomolecules, a 105

H2, a 105

hydrazine, a 105

MeOH, a 152

O2, a 151

organohalides, a 47

Shape Memory Effect,Fe-Pd thin films, a 46

TiPdNi thin films, a 105

Single Crystals,Ir, volume diffusion of Au 29

Solar Cells,a 47, 151

Soot,oxidation 177

South Africa,Pt 13, 130, 134

Specific Enthalpy,Pd 144

Sputtering,co-, magnetron, of Ag–Pd films, a 208

Fe-Pd shape-memory thin films, a 46

Pt, on C cloths, a 49

Sterols,hydrogenation, a 106

Stress,by tensile tests, Pt-Cu, Pt-Ru 15

Stress-Rupture,strength, Ir, high temperature 158

Sulfur,catalyst poison 110

Superalloys,Ir-Hf-Nb, hardening behaviour, a 46

Supercritical Solvents,propane, in catalysis, a 152

Suzuki Couplings,a 48, 106, 153, 209

Suzuki-Miyaura Couplings,a 153

Syngas,in synthesis of acetic acid, a 209

Tensile,strength, high temperature, Ir 158

Tetraalkylammonium Salts,influences on platinised

Pt layers 180

Thermal Conductivity,Pd 144

polycrystalline Pt nanofilms, a 207

Rh3X (X = Hf, Nb, Ta, Ti, V, Zr) 69

Thermal Diffusivity,Pd 144

Thermal Expansion,Pt 118

Rh3X (X = Hf, Nb, Ta, Ti, V, Zr) 69

Thermal Vacancy,Pt 118

Thermocouples,Pt, reliability 197

Thermophysical Properties,Pd 144

Rh3X 69

Thin Films,Ag–Pd, deposition, tarnish resistance, a 208

Fe-Pd, shape memory, a 46

TiPdNi, shape memory, a 105

Three-Way Catalysts,ageing 177

developments 177

Vacancy-Impurity Complexes,growth, in Ir 29

Vitamins,intermediates, synthesis 22

VOCs,emissions, catalytic combustion 64

Water,-soluble, FePt nanoparticles, a 49

drinking, denitration 22, 48

Water Gas Shift Reaction 21, 22, 152, 194