a = abstract | |
Acetic Acid, hydrocarbonylation, to higher acids, a | 44 |
Acrylic Acids, in Heck reactions | 138 |
Alcohols, allyl, hydrogenation | 29 |
ethyl, dehydrogenation, a | 43 |
oxidation, by Pd/LiNbO3, via acoustic oscillations | 82 |
from β-ketoesters, Ru catalysed, a | 45 |
hydrocarbonylation | 154 |
methyl, carbonylation, lr/1” catalysed | 105 |
oxidation, by Ru, to aldehydes and ketones | 94, 167 |
by Ru-Co-Al-CO, hydrotalcite/O2, a | 87 |
primary, secondary, oxidation of | 94, 167 |
Aldehydes, α-, β-, γ-hydroxy, by hydroformylation, a | 88 |
branched-chain, from styrene derivatives, a | 44 |
propanal, hydrogenation, a | 88 |
Alkanes, Ru(lII) GC detector for, a | 85 |
Alkenes, aziridination, a | 175 |
epoxidation, a | 175 |
in Heck reactions | 138 |
hydroformylation | 154 |
hydrogenation | 105 |
hydroxycarbonylation, a | 44 |
Ru(IlI) GC detector for, a | 85 |
Alkynes, hydrogenation | 105 |
Ru(III) GC detector for, a | 85 |
Allyl Ethers, hydroformylations, a | 88 |
Aluminides, coatings for gas turbines | 59 |
Amines, fluoroanilines synthesis | 29 |
heterocyclic, synthesis, a | 174 |
Amino Acids, “unnatural”, synthesis of | 138 |
Ammonia, decomposition to N2, with Pt/TiO2, a | 174 |
oxidation | 44, 105 |
in nitric acid manufacture | 62, 167 |
synthesis, K2[Os3(CO)ll]/“Sibunit” C catalyst, a | 132 |
K2[Ru4(CO)13/“Sibunit” C catalyst, a | 132 |
Antenna Effect, [Ru(bpy)3]2+ photoactive dendrimers | 69 |
Arenes, hydrogenation | 114, 133 |
Aryl Bromides, in Heck reactions | 138 |
Autocatalysts, manufacture of | 70, 168 |
Aziridination, of alkenes, a | 175 |
Ball Milling, high energy, a | 175 |
Ballard, fuel cells | 14, 149 |
Battery, high performance metal hydride alloy for | 50 |
rechargeable | 50 |
Biaryls, from coupling reactions, a | 44, 87 |
Biphasic, see Catalysis Book Reviews, “Catalysis of Organic Reactions” | 29 |
“Cisplatin: Chemistry and Biochemistry of a Leading Anticancer Drug” | 103 |
J. Mol. Catal. A: Chem ., carbonylation reactions | 154 |
Cancer, drugs, AMD473, JM216, oxaliplatin | 103 |
BBR3464 | 103, 158 |
book review | 103 |
Pt(IV) complexes as antitumour agents | 61 |
Capacitors, epitaxial, SrRuO3/(Ba, Sr)TiO3/SrRuO3, a | 45 |
Carbon, fibres, as base for porous Pt nanofibres | 61 |
Carbon Oxides, CO2, from CO, over O-Ru(0001), a | 172 |
supercritical, as a reaction medium | 29, 61, 87, 130 |
CO, absorption on platinised Pt electrodes, a | 173 |
desorption, on Pt/CeO2, Pt/ZrO2−CeO2, a | 86 |
from methane, a | 43 |
hydrogenation, a | 132 |
oxidation, on Pt(100), a | 86 |
oxidation to CO2, over O-Ru(0001), a | 172 |
tolerance of anodes, for PEMFCs, a | 88 |
Carbonylation, catalysts for, journal review | 154 |
see also Hydrocarbonylation | |
Carbonyls, a | 41, 84, 133, 173 |
Carboxylic Acids, from alkenes, Pd catalysed, a | 44 |
Catalysis, biphasic | 29, 44, 154 |
book review | 29 |
in carbonylation reactions, journal review | 154 |
catalyst recycling | 105 |
combinatorial chemistry techniques | 105 |
heterogeneous, a | 43-44, 86-87, 131-132, 174 |
homogeneous, a | 44-45, 87-88, 132-133, 174-175 |
in microreactors, for screening of catalyst libraries | 105 |
PGM Conference | 158 |
Catalysts, auto-, manufacture of | 70, 168 |
in cold-plasma reactors, for VOCs, CH4 oxidation | 109 |
combined homogeneous and heterogeneous | 114 |
homogeneous, molecular modelling of | 154 |
recovery, using filtration membranes, a | 175 |
separation | 158 |
kinetic screening, using reaction calorimetry | 158, 175 |
removal from olefin metathesis products, a | 175 |
“tethered complex on a supported metal”, TCSM | 114 |
three-way, | 28, 86, 119, 131, 168 |
for 2- and 3-wheeled vehicles | 13 |
Catalysts, Iridium, Ir/Al2O3, NH3 oxidation | 105 |
pyridine hydrodenitrogenation, a | 132 |
supported, hydrogenation of halogenated nitro aromatics | 29 |
Catalysts, Iridium Complexes, lr/I−, methanol carbonylation | 105 |
Catalysts, Osmium, K2[Os3(CO)11]/“Sibunit” C, for NH3 synthesis, a | 132 |
Catalysts, Palladium, Cu-Pd/γ-Al2O3, Cu-Pd/SiO2, a | 86 |
Pd complexes/support, hydrogenation reactions | 29 |
Pd-Ni/polymer, styrene hydroesterification, a | 44 |
Pd-Rh, CeO2− and non-promoted, exhaust aftertreatment, a | 86 |
Pd/Al2O3, for margarine production | 74 |
Pd/γ-Al2O3], sol-gel preparation of, a | 174 |
Pd/C, CFC-115 hydrodechlorination, a | 86 |
electrodeposition of Pd, a | 173 |
heterocyclic amines formation, a | 174 |
in heterogeneous Heck reactions | 138 |
Pd/CeO2, model catalyst, a | 131 |
Pd/CeO2-ZrO2 solid solutions, model catalyst, a | 131 |
with Pr, model catalyst, a | 131 |
Pd/HFAU(17) zeolite, o -xylene oxidation, a | 86 |
Pd/LiNbO3, acoustic oxidation of C2H5OH | 82 |
Pd/metal oxides, NO reduction, a | 44 |
Pd/MgO, CaO and R.E. oxides, CH4 conversion, a | 43 |
Pd/mixed oxides, CH4 oxidation, a | 86 |
Pd/SiO2-CeO2, model catalyst, a | 131 |
Pd/styrene-divinylbenzene, ethyl acetate synthesis, a | 131 |
Pd/support, animation of aldehydes and ketones | 29 |
Pd/ZrO2, CH4 combustion, a | 132 |
PdCl2/Al2O3, for margarine production | 74 |
Pt-Pd/CaCO3, hydrogenation of nitro aromatics | 29 |
Pt/Pd, for poly(diphenylsiloxane) formation, a | 130 |
for poly(diphenylsilylenemethylene) formation, a | 130 |
Rh-Pd-Cu, combinatorial catalyst library, a | 131 |
Catalysts, Palladium Complexes, allyl aryl ethers, electrochemical cleavage, a | 174 |
bis(dibenzylideneacetone)Pd, for allyl, phenyl and vinyl siloxane coupling, a | 132 |
2, 3-dichloropyridines, alkoxycarbonylation, a | 87 |
with N ligands, kinetic screening, a | 175 |
orthopalladated triaryl phosphites, biaryl couplings, a | 44 |
Pd(0) B1AN, alkyne hydrogenation | 105 |
for coupling reaction | 105 |
Pd2(dba)3-BINAP-NaO′Bu, Buchwald-Hartwig coupling | 29 |
Pd with bidentate N ligand, for H2O2 synthesis, a | 133 |
Pd phosphines with diaminopropyl dendrimers, a | 175 |
Pd-catalysed addition of pronucleophiles, a | 174 |
Pd/Xantphos/TsOH, biphasic hydroxycarbonylation, | 44 |
Pd(F6-acac)2, for coupling reactions, a | 132 |
Pd(OAc)2, Heck reactions, a | 87 |
Pd(OCOCF3)2, for coupling reactions, a | 132 |
Pd(PPh3)4, 2-, 4-chloropyridines, Suzuki coupling, a | 87 |
Pd(PPh3)4 formation, F-catalysed, a | 87 |
phospha-palladacycles. Heck reactions, a | 87 |
pronucleophile addition to C-C multiple bonds, a | 174 |
Catalysts, Platinum, EuroPt-1, cinnamaldeyde hydrogenation, a | 44 |
Pt(100), CO oxidation, a | 86 |
Pt, for poly(diphenylsiloxane) formation, a | 130 |
for poly(diphenylsilylenemethylene) formation, a | 130 |
Pt inclusion compounds, in PEFCs, a | 45 |
Pt systems, ethyl pyruvate hydrogention | 29 |
Pt-Pd/CaCO3, hydrogenation of nitro aromatics | 29 |
Pt-Rh, CeO2- and non-promoted, exhaust aftertreatment, a | 86 |
Pt-Ru/C electrocatalysts, for PEMFC, a | 88 |
Pt-Sn, C2H6 oxidation, a | 174 |
Pt/Al2O3, cinnamaldeyde hydrogenation, a | 44 |
enantioselective hydrogenation of trifluoroacetophenone | 29 |
NH3 oxidation | 105 |
pyruvates hydrogenation, a | 174 |
Pt/C, cinnamaldeyde hydrogenation, a | 44 |
determining oxygen in polymers | 40 |
electrocatalysts, for DMFC, a | 133 |
hydrogenation of aromatic nitro compounds | 29 |
Pt/CeO2, automotive exhaust purification, a | 86 |
Pt/MgO, CaO and R.E. oxides, CH4 conversion, a | 43 |
Pt/Pd, for poly(diphenylsiloxane) formation, a | 130 |
for poly(diphenylsilylenemethylene) formation, a | 130 |
Pt/PVP, pyruvates hydrogenation, a | 174 |
Pt/SiO2, cinnamaldeyde hydrogenation, a | 44 |
Pt/support, amination of aldehydes and ketones | 29 |
Pt/TiO2, NH3 decomposition | 174 |
Pt/ZrO2-CeO2, automotive exhaust purification, a | 86 |
[Pt(NH3)4]/HZSM-5, NH3 reactions | 44, 105 |
PtO2, heterocyclic amines formation, a | 174 |
Rh-Pt-Cu, combinatorial catalyst library, a | 131 |
Catalysts, Platinum Complexes, Pt-CNR,/Pd-SiO2, cyclohexanone hydrogenation | 114 |
Catalysts, Rhodium, hydroformylation | 29 |
Rh complexes/support, hydrogenation reactions | 29 |
Rh nanoparticles, arene hydrogenation, a | 133 |
Pd-Rh, Pt-Rh, CeO2- and non-promoted, exhaust aftertreatment, a | 86 |
Rh-Pd-Cu, Rh-Pt-Cu combinatorial catalyst library, a | 131 |
Rh/Al-MCM-41, NO reduction with C3H6, a | 132 |
Rh/CeO2/SiO2, CO hydrogenation, a | 132 |
[RhI2(CO)2], acetic acid hydrocarbonylation, a | 44 |
Catalysts, Rhodium Complexes, cationic, for styrene derivatives hydroformylation, a | 44 |
enamine synthesis | 29 |
hydroformylation, intermediates | 105 |
in supercritical CO2, a | 87 |
[Rh2(OAc)4], chiral epoxides synthesis | 105 |
Rh cyclopentadienes, alkene hydrogenation | 105 |
Rh-CNR2/Pd-SiO2, arene hydrogenation | 114 |
Rh-CNR3/M-SiO2, arene hydrogenation | 114 |
Rh-xantphos, olefin hydroformylation | 105 |
RhCI(PPh3)3, maleic anhydride hydrogenation, a | 133 |
Rh(I) chiral diphosphines, for hydrogenations, a | 175 |
[Rh(μ-S(CH2)3NMe2)(cod)]2, hydroformylations, a | 88 |
Catalysts, Ruthenium, β-ketoesters hydrogenation | 29 |
K2[Ru4(CO)13]/”Sibunit” C, for NH3 synthesis, a | 132 |
MOxRuySez/C, in fuel cells, a | 45 |
Pt-Ru/C eietrocatalysts, for PEMFC, a | 88 |
Ru complexes/support, hydrogenation reactions | 29 |
Ru-Co-Al-CO3 hydrotalcite, oxidation catalyst, a | 87 |
Ru-phosphine/clay, α-keto-esters and -amides, hydrogenation, a | 87 |
Ru/active charcoal pellets, glucose hydrogenation, a | 86 |
Ru/carbon molecular sieves | 29 |
Ru/MgF2, for hydrodesulfurisations, a | 132 |
RuO42−/poly(4-vinylpyridine), oxidation catalyst | 94, 167 |
RuO42−/zeolite-Y, oxidation catalyst | 94, 167 |
Catalysts, Ruthenium Complexes, nitrile hydrogenation | 29 |
Ru, removal from olefin metathesis, a | 175 |
Ru carbene, olefin metathesis, a | 88 |
Ru porphyrins, alkene epoxidation, a | 175 |
RuCl2(=CHPh)(PCy3)2, metathesis reactions, a | 175 |
[RuCl2(η6-arene)]2, β-ketoester hydrogenation, a | 45 |
RuCl2(PPh3)3, Baylis-Hillman adduct isomers, a | 133 |
methyl methacrylate polymerisation | 45, 102 |
Ru(ll) [p -cymene(PCy3)ClRu=C=C=CPh2]1CF3SO3−, olefin metathesis, a | 133 |
Ru(II) oxazolinylferrocenylphosphine, ketones hydrogenation, a | 88 |
Ru(II) polyphosphines, carbonyl hydrogenation, a | 88 |
[RuO2Cl2(Y-py)2], for 1 -hexanol oxidation | 94, 167 |
Cells, rechargeable | 50 |
Chemical Fluid Deposition, Pt films, a | 130 |
Chemiluminescence, see Luminescence | |
Chlorofluorocarbons, hydrodechlorination, a | 86 |
Cinnamaldehyde, hydrogenation, a | 44 |
Cinnamic Acids, by heterogeneous Heck reactions | 138 |
Cisplatin, anticancer drug | 61 |
book review | 103 |
Clusters, poly(oxyethylene)-grafted Pd, synthesis of, a | 129 |
Pt, in A12O3, a | 130 |
Ru carbonyl, a | 41 |
see also Nanoclusters | |
Coatings, noble metal aluminides, for gas turbines | 59 |
Ru(III) detector, for olefins detection, a | 85 |
see also Deposition and Electrodeposition | |
Cobalt, Co80Pt20 films on Ru(0001), magnetic anisotropy, a | 83 |
Co-Pt films, magnetic properties, a | 83 |
Colloids, Pt, polymer-stabilised, a | 83 |
Rh, for biphasic catalysis, a | 133 |
Combinatorial Chemistry, in catalysis | 105, 131 |
Rh-Pd-Cu, Rh-Pt-Cu alloy catalysts, a | 131 |
Conferences, 3rd Anglo-Dutch Symp. Organomet. Chem. Appi. Catal., Sheffield, March, 1999 | 105 |
7th Int. Conf. Chem. of the PGMs, Nottingham, July, 1999 | 58, 158 |
1998 Fuel Cell Seminar, Palm Springs, California, Nov., 1998 | 14 |
First Int. Conf. on Health Effects from Vehicle Emissions, London, Feb., 1999 | 71 |
HYPOTHESIS III, St. Petersburg, July, 1999 | 166 |
Int. Fall Fuels and Lubricants Meeting and Exposition, San Francisco, Oct., 1998 | 28 |
Int. Symp. on Iridium, Tennessee, March, 2000 | 12 |
SAE, Detroit, U.S.A., March, 1999 | 119 |
Seventeenth Conf. on Catal. of Organic Reactions, New Orleans, 29 March-2 April, 1998 | 29 |
Sixth Grove Fuel Cell Symp., London, Sept., 1999 | 17, 149 |
Third Noble and Rare Metals: NRM-2000, Donetsk, Ukraine, Sept., 2000 | 128 |
Copper, Cu-Pd/γ-Al2O3, Cu-Pd/SiO2, catalysts, a | 86 |
CuPd, nanometric particles, a | 83 |
Coupling Reactions, biaryl synthesis, a | 44 |
Buchwald-Hartwig, for fluoroanilines synthesis | 29 |
see also Heck Reactions | |
see also Suzuki Couplings | |
Creep, dispersion hardened Pt materials. Ir, Pt. Pt alloys, Rh, high temperature | 18 |
CRT™, conference | 71 |
Cyclohexanone, hydrogenation, a | 88 |
Cyclohexene, hydrogenation, a | 88 |
Dehydrogenation, EtOH, a | 43 |
Dendrimers, diaminopropyl-type, + Pd phosphines, a | 175 |
Pt encapsulated | 113 |
Ru photoactive | 69 |
Deposition, sub-μm Pt patterning on TiO2, a | 43 |
see also Coatings | |
see also Electrodeposition | |
Deuterium, interaction with C60Pt, a | 172 |
2, 3-Dichloropyridines, alkoxycarbonylation, a | 87 |
Diesel, aftertreatment, at SAE | 119 |
Diffusion, self-, in Pt, a | 129 |
β-Diketoncs, Pt complexes, synthesis of, a | 172 |
Dispersion Hardening, Pt and Pt alloys | 18 |
DNA, probes, a | 42, 84, 173 |
Dye, Pt, for electroluminescent devices | 12 |
Electrical Contacts, non-alloyed ohmic contacts, to 111-V semiconductors | 2 |
Electrocatalysis, Os phenanthrolinedione, NADH oxidation, a | 173 |
Electrochemistry, a | 173 |
Electrodeposition, nanostructurcd Pd, Pd-Fe films, a | 43 |
Pd on conducting graphite, a | 173 |
Pd-Co films, for contact finish applications, a | 130 |
platinised Pt, a | 173 |
Pt microparticles in sulfonate-polyaniline film, a | 43 |
Pt-Ru on Au, a | 173 |
see also Coatings | |
sec also Deposition | |
Electrodeposition and Surface Coatings, a | 42-43, 85, 130-131, 173 |
Electrodes, glassy C, poly[Ru(vbpy)32−]-modified, a | 131 |
poly[Ru(vbpy)32−/vba]-modified, a | 131 |
graphite, modified by Os phenanthrolinedione, a | 173 |
IrO2, Pt microparticles, sulfonate-polyaniline film, a | 43 |
[Os(bipy)2(PVP)10Cl]+ polymer modified, a | 173 |
photoelectrodes n -RuS2, activation, a | 85 |
platinised Pt, a | 173 |
Pt, hydrophobic, a | 42 |
low loaded, for PEFCs, a | 133 |
porous | 157 |
Pt/C, by ion beam sputtering, a | 130 |
Pt/lr, micro-, for intracellular measurements | 167 |
RuO2, high dielectric thin films on Si substrate, a | 45 |
Electroless Plating, onto catalytic Pd/ZnO thin films, a | 43 |
for Ni-Ru-P membrane, a | 43 |
Electroluminescent Devices, LEDs | 12 |
Emission Control, at SAE | 28, 119 |
autocatalyst first manufacture | 168 |
conference | 28, 71, 119 |
lean-burn gasoline engine aftertreatment | 28, 119 |
new legislation | 71, 119 |
plasma technology | 28 |
three-way catalysts | 28, 86, 199, 131, 168 |
two-stroke engine aftertreatment | 13, 28 |
Epoxidation, alkenes, a | 175 |
Epoxides, chiral, synthesis of | 105 |
Etching, electrochemical, of Pt/Ir microelectrodes | 167 |
of Pt/lr microscopy tips, a | 174 |
Ethane, oxidation, over Pt-Sn, a | 174 |
Ethers, allyl aryl, electrochemical cleavage, a | 174 |
Ethyl Pyruvate, hydrogenation | 29 |
Ethylene, from C2H6 oxidation, a | 174 |
Faujasite Cages, for anchoring, Ru carbonyl clusters, a | 41 |
Films, Co80Pt20, on Ru(0001), magnetic anisotropy, a | 83 |
Co-Pt, magnetic properties, a | 83 |
CoPtRe, for magneto-optical disks, a | 175 |
[Os(bipy)2(PVP)10Cl]+, electrodes, a | 173 |
Pd and Pd-Fe, for H2 separation, a | 43 |
Pd-Co, electrodeposited, a | 130 |
Pt, by hydrogenolysis of dimethyl(cyclooctadiene)Pt(II), a | 130 |
for electrodes, by ion beam sputtering, a | 130 |
α-PtO2, by d.c.-sputtering, a | 172 |
see also Thin Films | |
Flat Panel Displays | 12, 104 |
Fluoroalkanes, HFC-125, synthesis, a | 86 |
Fuel Cells, a | 45, 88, 133, 175 |
Ballard | 14, 149 |
ball milling of catalysts, for PEFCs, a | 175 |
conferences 14 | 14, 17, 149 |
Demonox™ | 14 |
DMFC | 14 |
flow field plates | 14 |
HotSpot™ reformer | 14, 149 |
MCFC | 149 |
membrane electrode assemblies, MEA | 14 |
MoRuSe electrocatalyst, O2 reduction, a | 45 |
PAFC | 14, 149 |
PEMFC, automobile application | 14, 149 |
CO tolerance of anodes, a | 88 |
portable and other applications | 14, 149 |
stationary power plant applications | 14, 149 |
transit bus application | 14 |
(Pt0.5R0.5 (Al4)) composite catalyst, for PEFCs, a | 175 |
Pt electrodes, for PEFCs, a | 133 |
Pt inclusion catalysts, for PEFCs, a | 45 |
Pt-Ru/C eletrocatalysts, morphology of, a | 88 |
Pt/C electrocatalysts, for DMFC, a | 133 |
Sixth Grove Fuel Cell Symposium | 17, 149 |
SOFC | 149 |
Fullerenes, C60Pt, interaction with deuterium, a | 172 |
polymerisation, on Pt(111) surfaces, a | 129 |
Pt complex, a | 41 |
Gas Turbines, nobel metal aluminide coatings | 59 |
Gauzes, Pt loss from | 62, 167 |
Pt-Pd-Rh, Pt-Rh, for nitric acid manufacture | 62, 167 |
Glass, direct-heated Pt systems, a | 88 |
Glasses, RuO2/glass nanocomposites, a | 84 |
Glucose, hydrogenation, a | 86 |
Grove Fuel Cell Symposium, Sixth | 17, 149 |
Heck Reactions, of aromatic halides, a | 87 |
cinnamic acids, synthesis | 138 |
heterogeneous | 29, 138 |
in high temperature water, a | 87 |
homogeneous | 29, 138 |
in non-aqueous ionic liquids, a | 87 |
Pd catalysts | 29, 87 |
Heterocycles, by hydroamination, a | 174 |
by hydroformylation in scCO2 | 29 |
by hydrogenation, a | 174 |
High Temperature, mechanical properties, of PGMs | 18 |
History, 25 years of autocatalyst manufacture | 168 |
Hans Merensky | 146 |
Johann Wolfgang Dõbereiner | 122 |
Merensky Reef discovery, South Africa | 146 |
transport of platina to Spain, late 18th century | 31 |
HotSpot™ Reformer, conferences | 14, 149 |
Hydroboration, Rh catalysed | 29 |
Hydrocarbonation, alkenes, allenes, a | 174 |
Hydrocarbons, aromatics, oxidation, by Ru-Co-Al-CO3 hydrotalcite/O2, a | 87 |
sensor, Pt Schottky diodes on n -type GaN, a | 173 |
Hydrocarbonylation, acetic acid, a | 44 |
alcohols, olefins, organohalides | 154 |
Hydrodechlorination, CFC-115, with Pd/C, a | 86 |
Hydrodenitrogenation, pyridine, a | 132 |
Hydroesterification, styrene, a | 44 |
Hydroformylation, alkenes | 154 |
allyl ethers, a | 88 |
heterocycle synthesis | 29 |
1-octene | 114 |
olefins | 44, 105 |
in supercritical CO2, a | 87 |
in situ spectroscopic studies | 105 |
styrene derivatives, a | 44 |
Hydrogen, effects on physical properties of Pd | 116 |
from methane, a | 43 |
H2-promoted self-diffusion of Pt, a | 129 |
HYPOTHESIS III Symposium | 166 |
interaction with IrXH2(PPr’3)2, (X = Cl, 1), a | 84 |
non-destructive testing for, using Pd-SiO2/Si | 155 |
sensor, Pt Schottky diodes on n -type GaN, a | 173 |
separation by Pd and Pd-Fe films, a | 43 |
Hydrogen Peroxide, biphasic synthesis of, a | 133 |
Hydrogen Sulphide, reaction with Ru5C(CO)15, a | 133 |
Hydrogenation, alkcncs | 105 |
alkyl aryl ketones, alkyl methyl ketones, a | 88 |
alkynes | 105 |
allyl alcohol | 29 |
arenes | 114, 133 |
cinnamaldehyde, a | 44 |
CO, a | 132 |
cyclohexanone, a | 88 |
2-cyclohexen-l-one, a | 88 |
cyclohexene, a | 88 |
ethyl pyruvate | 29 |
glucose,a | 86 |
halogenated nitro aromatic compounds | 29 |
α-ketoamides, α-ketoesters, a | 87 |
β-ketoesters, a | 45 |
cyclic | 29 |
maleic anhydride, a | 133 |
nitriles | 29 |
nitro aromatic compounds | 29 |
nitrobenzenes, with aldehyde substituents, a | 174 |
propanal, a | 88 |
pyruvates, a | 174 |
trifluoroacetophenone | 29 |
vegetable oils | 74 |
Hydrogenolysis, dimethyl(cyclooctadiene)Pt(II), a | 130 |
Hydrotalcites, Ru-Co-Al-CO3 catalyst, a | 87 |
Hydroxycarbonylation, alkenes, a | 44 |
Indium, R2Pd2In (R = rare earth), properties, a | 83 |
Iridium, conference | 12 |
high temperature mechanical properties | 18 |
Ir-modified aluminides, coatings for gas turbines | 59 |
Pt/Ir microelectrodes, electrochemical etching of, | 167 |
Pt/Ir microscopy tips, electrochemical etching, a | 174 |
Iridium Complexes, IrXH2(PPr’3)2, (X =Cl, I), interaction with H2, a | 84 |
PGM Conference | 158 |
Iridium Compounds, IrO2 thin films, by reactive pulsed laser deposition, a | 131 |
on Si(100) substrates, a | 131 |
Pt/IrO2 electrodes, a | 43 |
Isomerism, of Baylis-Hillman adducts, a | 133 |
of bis(2-hydroxy-4’-methylazobenzenato)Pt(II), a | 129 |
Johnson Matthey, 25 years of, autocatalyst manufacture, | 168 |
autocatalyst plant for India | 70 |
autocatalysts, three-way | 28 |
CRT™, particulate filter trap | 71 |
Demonox™ CO clean-up unit | 14 |
fuel cell technology, MEAs | 14 |
HotSpot™ reformer | 14, 149 |
motorcycle catalyst test facility | 13 |
“Platinum 1999” | 118 |
α-Ketoamides, hydrogenation, a | 87 |
α-Ketoesters, hydrogenation, a | 87 |
(β-Ketoesters, cyclic, hydrogenation | 29 |
hydrogenation, a | 45 |
Ketones, hydrogenation, a | 88 |
Lean Burn, gasoline engines, at SAE | 119 |
LEDs, | 2, 12, 43 |
from Ru(Il) terpyridine containing polyimides, a | 130 |
solid-state, from Ru(bpy)3(PF6)2 | 104 |
Liquid Petroleum Gas, sensor | 165 |
Living Radical Polymerisation, of methacrylates | 45, 102 |
Luminescence, chemi-, Ru complex, a | 42, 43 |
Os(II) dipyridophenazines, as probes for DNA, a | 84 |
photo-, by [Pt(thpy)(bzim)]3, a | 130 |
Pt cyclometallated complexes, for O2 sensor, a | 85 |
quenching, in Ru(II) phenanthrolines, a | 85 |
Ru(bipy)32+ -KBrO3, sulfite determination, a | 85 |
[Ru(bpy)3]2− photoactive dendrimers | 69 |
Ru(bpy)3(PF6)2/lTO | 104 |
Ru(II) bipy polyazo receptors, as anion sensors, a | 130 |
Ru(II) polypyridyl complexes, a | 173 |
Ru(II) terpyridine, a | 130 |
Magnetism, anisotropy, of Co80Pt20 on Ru(0001), a | 83 |
in CaTIn2 (T = Pd, Pt), a | 129 |
Co-Pt sputtered films, a | 83 |
FePd alloy, chiral magnetic domain structures, a | 172 |
in R2Pd2ln (R = rare earth), a | 83 |
Margarine, Pd catalysts, for production of | 74 |
MEAs, in fuel cells | 14 |
Membranes, Ni-Ru-P/ceramic, for EtOH dehydrogenation, a | 43 |
Pd and Pd-Fe, for H2 separation, a | 43 |
Merensky Reef, 75th anniversary of discovery | 146 |
Metallodendrimers, Pt, gas sensor materials, a | 131 |
Metathesis, acyclic diene, a | 175 |
olefins, a | 133 |
removal of unwanted Ru, a | 175 |
ROMP catalysts | 158 |
Ru catalyst, recyclable, a | 88 |
Methane, combustion, over Pd/ZrO2, a | 132 |
conversion to CO and H2, a | 43 |
oxidation, in cold-plasma reactors | 109 |
Pd/mixed oxides, a | 86 |
photodissociation on Pd, a | 84 |
Methyl Methacrylate, polymerisation of | 45, 102 |
MOCVD, Pt | 157 |
RuO2 thin films | 45, 157 |
NADH, oxidation of, a | 173 |
NAIL, for Heck reactions, a | 87 |
“Naklep”, hydrogen-phase phenomenon | 116 |
Nanoclusters, Pt/Al2O3, Pt/PVP, a | 174 |
Nanocomposites, RuO2 glass, a | 84 |
Nanoparticles, supported Cu-Pd catalysts, a | 86 |
Pd and CuPd, on NaCl(lOO), a | 83 |
Pt, on amorphous C film, a | 130 |
by electrocrystallisation, a | 130 |
by sonochemical reduction | 108 |
encapsulated by dendrimers | 113 |
on sol-gel modified C film, a | 130 |
thiol-functionalised, a | 172 |
Rh colloids, in biphasic catalysis, a | 133 |
Nanostructures, single monolayer of Ag on Ru(0001) | 73 |
Nanotechnology, Pd and Pd-Fe alloy films, a | 43 |
Pt porous fibres, replication of base | 61 |
Nickel Alloys, Pd-Ni alloy composite membrane, a | 85 |
rechargeable battery technology | 50 |
Niobium, NbRu alloy, shape memory effect, a | 41 |
Nitric Acid, manufacture, gauze technology | 62, 167 |
Nitriles, hydrogenation, Ru complexes | 29 |
Nitrobenzenes, hydrogenation of, a | 174 |
Nitrogen, fixation, by Ru model complexes | 158 |
Nitrogen Oxides, NO, AMD-6221 in vivo scavenger | 158 |
reduction, by Pd/metal oxides, a | 44 |
with C3H6, over Rh/Al-MCM-41, a | 132 |
NMR, 187Os, 103Rh, a | 131 |
1-Octene, hydroformylation | 114 |
Ohmic Contacts, see Electrical Contacts | |
Olefins, hydrocarbonylation | 154 |
hydroformylation | 44, 87, 105 |
metathesis, a | 88, 133 |
Ru(lII)/cryptand-coated GC detector for, a | 85 |
Organohalides, hydrocarbonylation | 154 |
Osmium, 187OS, NMR, a | 131 |
Osmium Complexes, Os3(CO)12, photolysis, a | 173 |
[Os3(CO)12], thermal decomposition, a | 84 |
Os phenanthrolinedione, NADH oxidation, a | 173 |
[Os(bipy)2(PVP)10Cl]1, polymer film electrodes, a | 173 |
Os(dmpe)2H2, photochemical properties, a | 84 |
Os(II) dipyridophenazine, photoproperties, a | 84 |
PGM Conference | 158 |
Osmium Compounds, Os-O thin films from OsO4, a | 131 |
Oxidation, alcohols, | 87, 94, 167 |
aromatic compounds, a | 87 |
C2H5OH, on Pd/LiNbO3, using acoustic oscillations | 82 |
C2H6, a | 174 |
CH4, in cold-plasma reactors | 109 |
over Pd/mixed oxides, a | 86 |
CO, over O-rich Ru(0001), a | 172 |
on Pt(1OO), a | 86 |
NADH, a | 173 |
NH3, Pt complex, a | 44 |
to N2, and H2O | 105 |
silicon, Pt-enhanced, a | 41 |
Sn/Pt(III) surface alloys, a | 83 |
VOCs, in cold-plasma reactors | 109 |
o -xylene, over Pd/zeolite, a | 86 |
Oxygen, evolution, by n -RuS2 photoelectrodes, a | 85 |
in polymers, determination of | 40 |
reduction, in fuel cells, by MoRuSe electrocatalyst, a | 45 |
by Pt catalyst, a | 45 |
sensors, cyclometallated Pt complexes, a | 85 |
Ru(II) phenanthrolines in polydimethylsiloxane, a | 85 |
Palladium, catalytic on ZnO thin films, for electroless plating, a | 43 |
CVD thin films, from allyl(β-ketoiminato)Pd(II), a | 129 |
electrical contacts | 2 |
electrodeposition, on conducting graphite, a | 173 |
H2 effects on | 116 |
membranes, for H2 separation, a | 43 |
nanometric particles, a | 83 |
nanostructured films, a | 43 |
NiMH surface modification | 50 |
Pd-SiO2/Si, for hydrogen detection | 155 |
Pd/Ru coating, for rechargeable batteries | 50 |
thin films, on α- and γ-Al2O3, a | 85 |
with tin oxide, sensor, for liquid petroleum gas | 165 |
Palladium Alloys, CuPd nanometric particles, a | 83 |
FePd films, chiral magnetic domain structures, a | 172 |
Pd-Cd, for contact finish applications, a | 130 |
Pd-Fe membranes, for H2 separation, a | 43 |
Pd-Fe nanostructured films, a | 43 |
Pd-H, superstrength, hydride TRIP-effect | 116 |
Pd-Ni composite membrane, a | 85 |
Pd-Ni-P phase transformations, a | 41 |
Pt-Pd-Rh catalyst gauzes | 62, 167 |
R2Pd2In (R = rare earth), properties of, a | 83 |
Palladium Complexes, allyl(β-ketoiminato)Pd(II), a | 129 |
Pd with 1, 4-bis(3-pyridyloxy)benzene, a | 83 |
Pd(O2), (O2)Pd(O2) from laser-ablated Pd, a | 172 |
PGM Conference | 158 |
Palladium Compounds, CaPdln2, synthesis of, a | 129 |
Pd clusters, poly(oxyethylene)-grafted, a | 129 |
UPd2Al3, heavy fermion superconductor, a | 129 |
Patents | 46-48, 89-92, 134-136, 176-178 |
PEMFC, fuel cells | 14, 149 |
Petroleum, liquid gas, sensor | 165 |
Phase Diagrams, Pd-Ga-As, Pd-ln-P, Pt-Ga-As, Pt-In-P | 2 |
Phosphorescence, Pt dye | 12 |
Photoconversion, a | 42, 84-85, 130, 173 |
Photoluminescence, see Luminescence | |
Photolysis, UV, of M3(CO)12 (M= Os, Ru), a | 173 |
Photoproperties, dithiocarbamate-Ru polypyridyl, a | 42 |
mono- and di-nuclear complexes | 158 |
Os(dmpe)2H2, a | 84 |
Os(II) dipyridophenazine complexes, a | 84 |
Pt-loaded TiO2 particles, a | 42 |
[Pt(thpy)(bzim)]3, photoluminescence, a | 130 |
Ru complexes, photoprobes for DNA, a | 42 |
[Ru(bpy)3]2+ photoactive dendrimers | 69 |
Ru(II) bipyridyl polyaza receptors, as sensors, a | 130 |
RuO2/Na2Ti3O7, photocatalyst, a | 42 |
n -RuS2 photoelectrodes, a | 85 |
Photoreactions, CH4 photodissociation on Pd, a | 84 |
of KI solutions, a | 42 |
O2 reduction by immobilised [Ru(bpy)3]2+/Co(III), a | 42 |
Os3(CO)12, Ru3(CO)12, solvent effects, a | 173 |
[Ru(bipy)3]2+ derivatives, with cytochrome P450cam, a | 85 |
Ru(bpy)3]3+/zeolite Y with water, a | 42 |
water decomposition, by RuO2/Na2Ti3O7, a | 42 |
Plasma, cold-, for VOCs and CH4 oxidation | 109 |
Plasma Technology, for auto emission control | 28 |
Platina, in New Granada, history | 31 |
Plating, Pt hydrophobic electrodes, a | 42 |
“Platinum 1999” | 118 |
Platinum, adhesion to PVDF | 145 |
clusters, in Al2O3 membrane, a | 130 |
colloids, Pt/PVP nanoscale, a | 83 |
direct-heated Pt systems, in glass processing, a | 88 |
discovery of the Merensky Reef | 146 |
dye | 12 |
electrical contacts | 2 |
electrodes, high surface area | 157 |
hydrophobic, a | 42 |
Pt/C, by ion beam sputtering, a | 130 |
H2-promoted self-diffusion of, a | 129 |
high temperature mechanical properties | 18 |
ion beam sputtering of | 145, 157 |
microparticles in sulfonate-polyaniline film, a | 43 |
nanofibres, porous | 61 |
nanoparticles, by sonochemical reduction | 108 |
electrocrystallised on C film, a | 130 |
encapsulation by dendrimers | 113 |
thiol-functionalised, a | 172 |
for oxidation of silicon, a | 41 |
platinised, IR absorption of CO on, a | 173 |
porous | 61, 157 |
Pt(111) surfaces, polymerisation of C60, a | 129 |
Pt, sub-μm pattern on TiO2, a | 43 |
Pt/Ir microelectrodes, electrochemical etching of, | 167 |
Pt/Ir microscopy tips, electrochemical etching of, a | 174 |
Platinum Alloys, Co80Pt20 films on Ru(0001), magnetic anisotropy, a | 83 |
Co-Pt films, magnetic properties, a | 83 |
CoPtRe films, as MO recording material, a | 175 |
high temperature mechanical properties | 18 |
Pt-Pd-Rh, Pt-Rh catalyst gauzes | 62, 167 |
Pt25Rh75(100), Pt25Rh75(111), surface segregation, a | 129 |
Pt-Ru, electrodeposited on Au, a | 173 |
Sn/Pt(III) surface alloys, oxidation of, a | 83 |
Platinum Complexes, bis(2-hydroxy-4′-methylazobenzenato)Pt(II), isomers, a | 129 |
C60Pt, interaction with deuterium, a | 172 |
dimethyl(cyclooctadiene)Pt(II), hydrogenolysis, for Pt films, a | 130 |
fullerenes, a | 41 |
octaethylporphine Pt(II), dye | 12 |
PGM Conference | 158 |
Pt cyclometallated complexes, for O2 sensor, a | 85 |
Pt cyclopentadiene, MOCVD precursor | 157 |
Pt diketonate, cationic, synthesis, a | 172 |
Pt diynes, synthesis and properties of, a | 84 |
Pt metallodendrimers, gas sensor materials, a | 131 |
Pt polyynes, synthesis and properties of, a | 84 |
Pt(acac)2, as precursor for porous Pt nanofibres | 61 |
Pt(IV) complexes, as antitumour agents | 61 |
Pt(O2), (O2)Pt(O2), from laser-ablated Pt, a | 172 |
[Pt(thpy)(bzim)]3, photoluminescence, a | 130 |
Platinum Compounds, antitumour agents | 103 |
CaPtIn2, preparation of, a | 129 |
Pt oxides, from laser-ablated Pt, a | 172 |
α-PtO2, sputtering of | 157, 172 |
Polyhydrides, IrXH2PPri 3)2 (X = Cl, I), a | 84 |
Polyimides, with Ru(II) terpyridine, for LEDs, a | 130 |
Polymerisation, C60 on Pt(111), a | 129 |
living radical, of methyl methacrylate | 45, 102 |
Polymers, determining O2 in | 40 |
inorganic, 1∞[PdPS4], [PtCl2(Pn Bu3)2] with pyrazine, a | 84 |
living radical | 45, 102 |
[Os(bipy)2(PVP),10Cl]− films, electrodes, a | 173 |
PVDF, Pt adhesion to | 145 |
Pronucleophiles, addition to C-C multiple bonds, a | 174 |
Pyridine, hydrodcnitrogenation, a | 132 |
Pyruvates, hydrogenation, over Pt catalysts, a | 174 |
Rare Earths, R2Pd2In (R = rare earth), properties, a | 83 |
Reactors, cold-plasma, for VOCs and CH4 oxidation | 109 |
membrane, for dendritic Pd catalysts, a | 175 |
micro-, for screening of catalyst libraries | 105 |
Trickle-Bed, for hydrogenations, a | 86 |
Recording Film, CoPtRe, for MO disks, a | 175 |
Recovery, separation of product/catalyst | 158, 175 |
Reduction, NO, by Pd/metal oxides, a | 44 |
O2, by [Ru(bpy)3]2 with macrocyclic Co(III), a | 42 |
Rhodium, 103Rh, NMR, a | 131 |
high temperature mechanical properties | 18 |
Rhodium Alloys, Pt25Rh25(100), Pt25Rh75(111), surface segregation, a | 129 |
Pt-Pd-Rh, Pt-Rh catalyst gauzes | 62, 167 |
Rhodium Complexes, PGM Conference | 158 |
Rh(I) chiral diphosphine, hydrogenation catalysts, a | 175 |
Rhodium Compounds, HfRhSi. TiRhSi, ZrRhSi, superconductivity of, a | 83 |
Sr3M RhO6 (M = Y, Sc, In), synthesis, a | 41 |
Ruthenium, NiMH surface modification | 50 |
Pd/Ru coating, for rechargeable batteries | 50 |
Ru(0001), O-rich surfaces, CO oxidation, a | 172 |
single monolayer of Ag on, nanostructures | 73 |
stainless steel, surface composition, a | 41 |
Ruthenium Alloys, Ni-Ru-P composite membrane, a | 43 |
Pt-Ru, electrodeposited on Au, a | 173 |
shape memory effect, NbRu, TaRu, a | 41 |
Ruthenium Complexes, C5Me5Ru(PR3)2Cl, a | 172 |
dithiocarbamate-Ru polypyridyl, photoproperties, a | 42 |
PGM Conference | 158 |
poly Ru vbpy/vba-modified electrodes, a | 131 |
Ru3(CO)12, photolysis, a | 173 |
[Ru3(CO)12], thermal decomposition, a | 84 |
Ru5C(CO)15, for dehydrosulfurisation, a | 133 |
Ru carbonyl clusters in faujasite cages, a | 41 |
Ru cyclopentadiene, MOCVD precursor | 157 |
Ru model complexes, for nitrogen fixation | 158 |
[Ru(bipy))]32+, photoreactions with P450cam, a | 85 |
Ru(bipy)32−-KBrO3, for sulfite determination, a | 85 |
Ru(bpy)2(PF6)2, for solid state LEDs | 104 |
[Ru(bpy)3]2+ + macrocyclic Co(III), photoreactions, a | 42 |
for O2 reduction, a | 42 |
photoactive dendrimers | 69 |
Ru(bpy)3, in electrochemical LEDs, a | 43 |
Ru(bpy)3Cl2, chemiluminescence, a | 42 |
Ru(bpy)33− -zeolite Y with water, photoreactions, a | 42 |
Ru(II) bipy polyazo receptors, luminescent sensors, a | 130 |
Ru(II) oxazolinylferrocenylphosphine, a | 88 |
Ru(II) phenanthrolines, for O2 sensors, a | 85 |
Ru(II) polypyridyl, luminescence, a | 173 |
Ru(II) terpyridine containing polyimides, a | 130 |
Ru(III)/cryptand-coated detector, for olefins, a | 85 |
Ru(phen)2(PHEHAT)2+ and Ru(TAP)2(PHEHAT)2+, photoprobes for DNA, a | 42 |
[RuVI(Por)(NTs)2], in amidations, aziridinations, a | 175 |
[RuVI(Por)O2], for alkene epoxidation, a | 175 |
Ruthenium Compounds, Bi2Ru2O7-y, O control, a | 84 |
RuO2, high dielectric thin films, a | 45 |
highly conductive thin films, on SiO2/Si, a | 45 |
thin films, by MOCVD | 45, 157 |
RuO2/Bi2O3 annealing, Bi2Ru2O7-y formation, a | 84 |
RuO2/glass nanocomposites, a | 84 |
RuO2/Na2Ti3O7, for H2O photodecomposition, a | 42 |
n -RuS2, photoelectrodes, a | 85 |
Sr2RuO4, superconductivity, a | 41, 88 |
SrRuO3/(Ba,Sr)TiO3/SrRuO3 epitaxial capacitor,a | 45 |
Schottky Diodes, Pt, on n- type GaN, a | 173 |
Semiconductors, III-V, electrical contacts to | 2 |
Sensors, DNA, a | 84, 173 |
H2 detection | 155, 173 |
hydrocarbon, a | 173 |
liquid petroleum gas | 165 |
luminescent, a | 173 |
O2, a | 85 |
olefins, a | 85 |
propane,a | 173 |
SO2, a | 85, 131 |
sulfite, a | 85 |
Shape Memory Effect, in NbRu, TaRu alloys, a | 41 |
Silicon, Pd-SiO2/Si, for hydrogen detection | 155 |
Pt-enhanced oxidation, a | 41 |
Siloxanes, cross-coupling, a | 132 |
Silver, single monolayer on Ru(0001), nanostructures | 73 |
Sol-Gel, O2 sensor, a | 85 |
Pd/γ-Al2O3, catalysts, preparation of, a | 174 |
Sonochemistry, for Pt nanoparticles preparation | 108 |
Sputtering, ion beam, of Pt | 145 |
of α-PtO2 | 157, 172 |
Steel, stainless, Ru duplex, surface composition, a | 41 |
Stress-Rupture, properties of PGMs | 18 |
Styrene, hydroesterification, hydroformylation, a | 44 |
Sulfite, sensor, a | 85 |
Sulfur Oxides, SO2, determination, a | 85 |
gas sensor materials for, a | 131 |
Superconductivity, HfRhSi, TiRhSi, ZrRhSi, a | 83 |
Sr2RuO4, flux-line lattices, a | 88 |
time-reversal symmetry-breaking, a | 41 |
Superconductors, heavy fermion, UPd2Al3, a | 129 |
Supramolecules, with nitrogen ligands | 158 |
Suzuki Couplings, 2- and 4-chloropyridines, a | 87 |
Tantalum, TaRu alloy, shape memory effect, a | 41 |
Thin Films, epitaxial, UPd2Al3, a | 129 |
FePd alloy, chiral magnetic domain structures, a | 172 |
IrO2, by reactive pulsed laser deposition, a | 131 |
on Si(100) substrates, a | 131 |
Os-O, by d.c.-glow-discharge, a | 131 |
Pd, by CVD, from allyl(β-ketoiminato)Pd(II), a | 129 |
Pd onto α - and γ-Al2O3, a | 85 |
Pd and Pd-Fe, for H2 separation, a | 43 |
Pd on ZnO, a | 43 |
Pd-SiO2/Si, for hydrogen detection | 155 |
poly(diphenylsiloxane), a | 130 |
poly(diphenylsilylenemethylene), a | 130 |
Pt, by MOCVD | 157 |
Ru(bpy)2(PF6)2 for solid state LEDs | 104 |
RuO2, by MOCVD | 45, 157 |
high dielectric, a | 45 |
highly conductive, a | 45 |
see also Films | |
Three-Way Catalysts | 28, 86, 119, 131, 168 |
Transistors, FET, HBT, JFET | 2 |
Ultrasound, Pt systems, ethyl pyruvate hydrogenation | 29 |
Umpolung, of aryl-Pd species, a | 174 |
VOCs, oxidation | 86, 109 |
Water, decomposition, photocatalyst, a | 42 |
high temperature, as solvent for Heck Reactions, a | 87 |
photoreactions, a | 42 |
Xylene, oxidation, a | 86 |