Absorption, H2 in Pd, Pd alloys | 13, 31 |
Acetoxylation, butadiene over Pd-Sb-KOAc, a | 194 |
Acetylene, hydrogenation on Pt foil, a | 86 |
Adsorption, CO, H2O2 on Pd/rare earth oxides, a | 138 |
CO,NO on Pt (410), a | 31 |
CO2 on coal, a | 193 |
glycerol at platinised Pt electrode, a | 33 |
H2 on Pd-Rh catalysts in H2SO4, HCl, a | 86 |
organic compounds on Pt anodes, a | 191 |
O2 in polycrystalline Rh | 85 |
phenol on Pt and graphite anodes, a | 134 |
AIROF, pH dependence, a | 32 |
Alcohols, aliphatics, hydrogenation over Ru-Ni membrane catalysts, a | 135 |
methyl, carbonylation over Rh/X zeolites, a | 37 |
for H2 photoproduction, a | 87 |
oxidation at Pt-SPE, a | 134 |
oxidations by Ru complexes, a | 140 |
by Ru(VI) and (VII), a | 195 |
phenol, adsorption, oxidation on Pt and graphite anodes, a | 134 |
2-propanol, photocatalytic dehydrogenation, a | 87 |
Aldehydes, α,β -unsaturated, hydrogenation by Ru and Os complexes, a | 140 |
production from alcohol oxidation, a | 140 |
Aliphatic Acids, unsaturated, hydroformylation over Rh, a | 140 |
Alkanes, n-butane, conversion over Pt-Mo/Y-zeolite, a | 88 |
C9-C16, conversion over Pt/HZSM-5, a | 35 |
n-decanes hydrocracking over Pt/Al2O3, a | 137 |
n-heptane, aromatisation, a | 35, 137 |
n-hexane, hydroisomerisation over Pd/zeolite, a | 36 |
hydrogeneolysis over Pt/SiO2 (EUROPT-1) a | 193 |
methane, oxidation over Pt/support, a | 35 |
n-pentane, isomerisations, a | 137, 138 |
reactions over Pt-Au/support, a | 88 |
Alkene, -alkyne, hydrogenation over Pd catalysts, a | 36 |
allene, hydrogenation, low pressure over Rh/Al2O3, a | 36 |
arylation by Pd catalysts, a | 90 |
ethylene, pretreatment effect on Rh/Y zeolite, a | 37 |
1-heptene, hydrogenation over Pd catalysts, a | 138 |
1-hexene, hydrogenation by Pt catalysts, a | 88 |
propylene, hydrogenation over Pt/SiO2, Pd/SiO2, a | 193 |
Alkynes, alkene, hydrogenation over Pd catalysts, a | 36 |
2-butyne-1,4-diol, hydrogenation for γ -keto acid production, a | 39 |
2-octyne hydrogenation with 1-heptene over Pd catalysts, a | 138 |
Allyl Chloride, reduction at platinised Pt electrode, a | 33 |
Amides, N-alkylation by RuCl2(PPh3)3, a | 90 |
Amines, secondary, synthesis, from primary, a | 38 |
Ammonia, catalytic oxidation gauzes | 109 |
Arenes, a | 38 |
Aromatisation, n-heptane on PtKL, PtNaX catalysts, a | 137 |
Arora-Matthey, 20th Anniversary | 53 |
Arsenic, environmental sampling, a | 136 |
Arylation, by Pd complex catalysts, a | 89, 90 |
Aryltrimethyltins, synthesis, over “ligandless” Pd, a | 139 |
Beam Leads, Ti/Pt/Au, failure suppression, a | 91 |
Benzene, hydrogenation, a | 38 |
photocatalysed hydroxylation by RuOx/TiO2, a | 136 |
Benzoic Acid, hydrogenation over Pd/C, a | 193 |
Book Reviews, Amorphous Metallic Alloys | 106 |
Boussingault, history | 189 |
Catalysis in C1 Chemistry | 21 |
Catalysis Volume 6 | 52 |
Chemistry of Ruthenium | 177 |
Phase Diagrams of Precious Metal Alloys | 108 |
Bronzes, (RE)Pd3S4, preparation, characterisation, a | 86 |
1,3-Butadiene, reactions over platinum metals, a | 90, 194 |
Cancer, antitumour drugs | 157, 168 |
chemotherapy, Pt complexes, symposium | 14 |
Carbon, isotope exchange with H, over Pt, Pd catalysts, a | 193 |
Carbon Oxides, CO, adsorption, a | 31, 138 |
chemisorption, a | 139 |
conversion under transient air/fuel ratio, a | 35 |
detection by Ru(II) octaethylporphyrin, a | 137 |
oxidation, a | 139, 193 |
reaction with H2 over Pd/TiO2, a | 138 |
from low heat value gas combustion, reduction, a | 36 |
CO2, adsorption on coal, a | 193 |
produced in fuel cell, a | 90 |
reaction with H2 to form methyl formate, a | 39 |
Carbonylation, methanol, by Rh/X-zeolites, loading, a | 37 |
Carboplatin | 14, 157, 168 |
Carboxylic Acids, decarboxylation by platinised TiO2, a | 34 |
Catalysis, asymmetric, a | 90, 139 |
bimetallic phase transfer, a | 39 |
in C1 chemistry, book review | 21 |
etching of gauzes in NH3 oxidation | 109 |
future predictions | 150 |
heterogeneous, a | 35, 36, 37, 88, 89, 137, 138, 139, 193, 194 |
homogeneous, a | 38, 39, 89, 90, 139, 140, 194, 195 |
hydrogenation, novel electronic effects, in | 98 |
impregnation and drying processes, a | 194 |
organometallic, 2nd Intl. Platinium Metal Conf. | 168 |
recent advances | 52 |
2nd Europ. Symp. | 20 |
Catalysts, automotive exhaust, a | 35, 137 |
conference | 22 |
high temperature durability trial | 174 |
combustion, review | 12, 193 |
Iridium Complexes, , a | 194 |
[Ir(CO)2η 3-C5Me5], in hydrocarbon reactions | 168 |
Ir carbonyl/Al2O3, preparation, a | 37 |
Osmium Complexes, for aldehyde hydrogenation, a | 140 |
Os carbonyl/Al2O3, preparation, a | 37 |
Os6(CO)18/Al2O3, SiO2, TiO2, chemisorption of CO, O2, a | 139 |
Os/SiO2, Fischer-Tropsch, for olefin homologation, a | 138 |
Palladium, black, hydrogenation of alkyne-alkenes, a | 36, 138 |
colloidal Pd hydrosols/support, a | 35 |
comparison of heterogeneous and homogeneous, a | 194 |
for alkene arylation, a | 90 |
for heterocycle synthesis, a | 89 |
for NaHCO3 reduction, a | 34 |
Pd-Sb-KOAc, Pd-Bi-KOAc, for acetoxylation, a | 194 |
surfaces, catalytic chemistry under UHV, a | 88 |
wire, for CO, hydrocarbon oxidation, a | 193 |
Palladium Alloys, Pd-O-Zr, for methanation, a | 89 |
Pd-Rh, H2 adsorption in H2SO4, HCl, a | 86 |
Palladium Complexes, for N-heterocyclic synthesis, a | 38 |
for olefin arylation, a | 89 |
with reducing potential, a | 38 |
Pd(II) azo complexes, nitrobenzene hydrogenation, a | 139 |
, a | 194 |
PdCl2-CuCl2 for butadiene-1,3 oxidation, a | 90 |
(π -C3H5PdCl)2, for Me6Sn reaction with nitrobenzene, a | 139 |
[PdCl2(PhCN)2], organic syntheses | 168 |
Pd/γ -Al2O3, Pd/CeO2/Al2O3, for CO, hydrocarbon oxidation, a | 193 |
Pd/activated C, modified, for alkyne-alkene hydrogenation, a | 138 |
Pd/C, for benzoic acid hydrogenation, a | 193 |
Pd/C, Pd/PQ, for H, C isotope exchange, a | 193 |
Pd/C-K2CO3, for furan production, a | 89 |
Pd/MgO, ESR study, a | 36 |
Pd/PS, preparation and use, a | 36 |
Pd/RE oxides, adsorption, catalytic activity, a | 138 |
Pd/SiO2, reactions, a | 138, 193 |
Pd/SiO2 gel for hydrogenation of alkyne-alkenes, a | 36 |
Pd/SiO2 + zeolites, for H2/CO conversions, a | 194 |
bis(allyl)Pd/SiO2, a | 138 |
Pd/stannic oxide, in TEA lasers | 166 |
Pd/TiO2, activity for CO/H2 reaction, a | 138 |
Pd/zeolite, n-hexane hydroisomerisation, a | 36 |
bis(allyl)Pd/X-zeolite, Y-zeolite, a | 138 |
Pd-Cu/zeolite, for propylene oxidative acetoxylation, a | 89 |
Pd-Cu/mordenite zeolite, toluene disproportionation, a | 36 |
Platinum, modified for hydrogenation study, a | 88 |
wire for CO, hydrocarbon oxidation, a | 193 |
Platinum Alloys, hydrocarbon reactions, a | 194 |
Platinum Complexes, , a | 194 |
PtC12-4PbC12, for water gas shift reaction, a | 33 |
PtCl2(PPh3)2-SnCl4-Et3N, a | 38 |
Pt-Au/Aerosil, clusters, a | 88 |
Pt/Al2O3, hydrocracking of n-decanes, a | 137 |
in I.C.E., deactivation, a | 137 |
methane oxidation, a | 35 |
mufflers, for diesel engine exhaust purification, a | 88 |
optimisation during pentane isomerisation, a | 137 |
radial profiles, a | 137 |
Pt/γ -Al2O3, Pt/CeO2/Al2O3, for CO, hydrocarbon oxidation, a | 193 |
Pt, Ag particles/Al2O3, C, SiO2 metal-support interaction, a | 88 |
Pt-Pb/Al2O3, isomerisation of n-pentane, a | 138 |
Pt-Re/Al2O3, radial profiles, a | 137 |
(NH4)2PtCl4, (NH4)2PtCl6, Pt(NH3)4Cl2/γ -Al2O3, MgO, SiO2, properties, a | 137 |
Pt-Sn/Al2O3-Cl, activity for n-heptane reforming, a | 35 |
Pt/CdS powder, for H2 production, a | 34 |
Pt/C, Pt/PQ, for H, C isotope exchange, a | 193 |
Pt/ceramic, in wood-burning stove | 115 |
Pt/MgO, ESR study, a | 36 |
Pt/colloidal resin, for H2 photoproduction, a | 136 |
Pt/SiO2, (EUROPT-1) for alkane hydrogenolysis, a | 193 |
for methane oxidation, a | 35 |
for propylene hydrogenation, a | 193 |
Pt/SiO2-Al2O3, methane oxidation, a | 35 |
Pt/stannic oxide, in TEA lasers | 166 |
Pt/support, for low heat value gas combustion, a | 36 |
Pt/colloidal hydrosols/support, a | 35 |
Pt/TiO2, clusters, a | 88 |
for decarboxylation of carboxylic acids, a | 34 |
NaOH-coated for H2O photolysis, a | 135 |
Pt-Au/TiO2, clusters, for hydrogenolysis, a | 88 |
Pt/KL, Pt/NaX, for n-heptane aromatisation, a | 137 |
Pt/Mo/Y-zeolite, activity in n-butane conversion, a | 88 |
Pt-Ru/HY-zeolite, for Fischer-Tropsch, a | 36 |
Pt/HZSM-5, for n-alkane conversion, a | 35 |
Platinum Metals, additions to coal, a | 193 |
for Cl2 evolution, a | 33 |
in combustion, a | 193 |
ultrafine, organic syntheses, a | 139 |
Platinum Metal Complexes, in organic syntheses, 1980 study, a | 89 |
Platinum Metals/Ce/Al2O3 beads, three-way catalysts, a | 35 |
Platinum Metals, Oxides/TiO2, for benzene hvdroxvlation, a | 136 |
Platinum Metals/n-CdS, n-InP, n-SrTiO3, n-TiO2, electrical contact properties, a | 87 |
Rhodium, for hydroformylation, a | 140 |
wire, for CO, hydrocarbon oxidation, a | 193 |
Rhodium Alloys, Pd-Rh, H2 adsorption, in H2SO4, HCl, a | 86 |
Rhodium Complexes, for asymmetric reactions, a | 90, 139 |
for photocatalysis, a | 87 |
[RhI(CO)2Br2]− in CO/CO2 fuel cell, a | 90 |
Rh(CO)2C12, for water gas shift reaction, a | 33 |
[Rh(COD)L], [Rh2(COD)2LI], for H2 transfer reaction, a | 140 |
Rh(I)triphenylphosphine/ion-exchange material, for hydrogenation, a | 138 |
Rh-Ru, bimetallic, homogeneous, a | 90 |
Rh/Al2O3, low pressure allene hydrogenation, a | 36 |
Rh/γ -Al2O3, Rh/CeO2/Al2O3, for CO, hydrocarbon oxidation, a | 193 |
tris(allyl)Rh/Al2O3, a | 138 |
Rh-K/Cr2O3/γ -Al2O3, for toluene steam dealkylation, a | 89 |
Rh-coated CdS, in artificial photosynthesis, a | 192 |
Rh/SiO2, Fischer-Tropsch, for olefin homologation, a | 138 |
Colloidal Rh hydrosols/support, a | 35 |
RhCl3/TiO2, in CO-H2 reaction, conditions, a | 37 |
Rh-Ag/TiO2, SMSI effect, a | 37 |
Rh/X-zeolite, in methanol carbonylation, loading effects, a | 37 |
tris(allyl)Rh/X-zeolite, a | 138 |
Rh/Y-zeolite, for ethylene hydroformylation, pretreatment effects, a | 37 |
Ruthenium, RuO4 for coal oxidation, a | 37, 140 |
Ruthenium Alloys, for hydrocarbon reactions, a | 194 |
Ru-Ni, membrane, for alcohol hydrogenation, a | 135 |
Ruthenium Complexes, for aldehyde hydrogenation, a | 140 |
Ru(II)bisdiazadiimines, MV photoreduction, a | 35 |
, polymer pendant electrode, a | 88 |
– peroxydisulphate, photooxidation, a | 192 |
[Ru(bpy)2(CO)Cl]+, a | 38 |
Ru(bpy)XYn+, quantum yields, a | 192 |
Ru-Co for hydroformylation, a | 140 |
Ru and Co carbonyls, for γ -keto acids, a | 39 |
HRu3(CO)−11, HCO2Ru3(CO)−10, for alkyl formate production, a | 39 |
RuCl2(PPh3)3, a | 38, 90 |
RuCl3(1,3-bis(4-methyl-2-pyridylimino)-isoindolines for alcohol oxidation, a | 140 |
K+[RuH2(PPh3)2(PPh2C6H4]−, in hydrogenations | 168 |
[RuO4]−, [RuO4]2−, [RuO2(bipy)Cl2] as oxidants, a | 195 |
Ru-Rh, bimetallic, a | 90 |
Ru/Al2O3 + promoter, in methanation, a | 194 |
Ru/Al2O3/SiO, a | 37 |
Ru-Co/Al2O3, SiO2, studies, a | 37 |
[Ru3(CO)12]/Al2O3, MgO, cluster effects, a | 37 |
[H4Ru4(CO)12]/Al2O3, MgO, cluster effects, a | 37 |
RuS2-CdS, photocatalysis, a | 192 |
Ru(II)triphenylphosphine/ion-exchange material, for hydrogenation, a | 138 |
RuO2/polypyrrole, for H2O photodissociation, a | 87 |
RuO2-polybrene, for O2 evolution, a | 192 |
RuCl3/PR3, for secondary amine synthesis, a | 38 |
Ru/SiO2, deactivation, CO oxidation, a | 139 |
Fischer-Tropsch, for olefin homologation, a | 138 |
RuCl3/SiO2, for benzene, cyclohexene hydrogenation, a | 38 |
Ru/support for syngas conversion to ethylene, a | 194 |
RuO2-TiO2 colloids, O2 evolution, a | 192 |
RuO2/TiO2, paramagnetism, a | 139 |
Ru/zeolites, CO, H2 chemisorption, a | 139 |
Fischer-Tropsch, a | 89, 194 |
Ru-Pt/HY-zeolite, for Fischer-Tropsch, a | 36 |
Ru/ZSM-5, synthesis gas conversion, a | 38 |
Cells, semiconductor-metal/SPE/Pt, a | 87 |
Chemisorption, CO, O2 on Os carbonyl clusters, a | 139 |
H2 on Pd foil, film, a | 31 |
suppression on Ru/zeolites, a | 139 |
inorganics, organics, on Ru(001), a | 190 |
Chloral Hydrate, reduction at platinised Pt electrode, a | 33 |
Chlorine, evolution on platinum metals, a | 33 |
Chromium Alloys, plastic, with Pt, Pd, Ir, Ru additions, effect on anodic dissolution, a | 191 |
Cisplatin | 14, 157, 168 |
Coal, effects of catalyst addition on CO2 adsorption, a | 193 |
indirect liquefaction over Ru/support, a | 38 |
oxidation, a | 37, 140 |
Coatings, Pd-Ni | 54, 194 |
Composite, ZGS Platinum “Trim” | 7 |
Combustion, catalytic, review | 12, 193 |
Compton Profile, in Fe, measured by 191mIr nuclei, a | 193 |
Conference, cancer chemotherapy | 14 |
Catalysis by Metals | 20 |
Fuel Cells | 19, 165 |
Hydrogen in Metals | 13 |
2nd Intl. Platinum Group Metal Chemistry | 157, 168 |
2nd Intl. Platinum Seminar | 22 |
Thermal Conductivity | 164 |
Corrosion, behaviour, Ti-Pd, ion implantation, a | 34 |
effects on Pd contacts, a | 91 |
H2 detector for pipes, a | 195 |
photo, of n-RuS2 single crystals, a | 192 |
protection, a | 90 |
Cracking, hydrocracking, alkanes, a | 137 |
Crystallisation, Os dichalcogenides, single crystals, a | 191 |
in amorphous Pd-Si alloys, a | 84 |
Ru-Cu alloy single crystals, a | 190 |
Ru dichalcogenides, single crystals, a | 191 |
RuS2 single crystals, properties, a | 85 |
Cyclohexene, reactions over platinum metals, a | 38, 140 |
Dehydrogenation, 2-propanol, photocatalysis, a | 87 |
Deltalog, thermocouple calibration monitor | 107 |
Detectors, film thickness, calibration, a | 136 |
hydrogen, a | 141, 195 |
atomic, a | 35 |
Diesel Engines, exhaust pollution control, a | 88 |
Diffusion, gas electrode, C,Pt activated, a | 86 |
H, a | 86, 132, 133 |
DNA, relaxation by OsO4 probe, a | 137 |
Electrical Contacts, Ta-Ir, in Schottky barriers | 52 |
Pd alloy, wear and friction, a | 195 |
Pd connectors, corrosion effects, a | 91 |
Pd inlay coupons, corrosion effects, a | 91 |
Pd-Ni coatings | 54 |
Pt,Rh,Ru for Schottky junctions, a | 87 |
Ti/Pt, blistering during gas anneal, to GaAs/Al-Ga-As), a | 91 |
Ru-Cu alloys | 62 |
Electrical Resistivity, with temperature, of Pt | 164 |
Electrochemistry, a | 33, 34, 86, 87, 134, 135, 191, 192 |
Electrochromism, iridium oxide hydrous films | 56 |
Electrodeposition, Os on Co, Cu, Fe, Ag, a | 35 |
PdNi, mechanical, corrosion properties, a | 195 |
Pd-Ag alloys from ammoniacal electrolytes | 117 |
Pt on Co, Cu, Fe, Ag, a | 35 |
Ru, from sulphamate, a | 88 |
hydrated Ru oxide films, a | 136 |
Electrodes, anodes, Pt, organic adsorption on, a | 191 |
impressed current, Pt clad Nb, a | 90 |
Pt and graphite, phenol behaviour, a | 134 |
RuO2/ZrO2-coated Ti, O2 evolution at, a | 87 |
C, gas diffusion, Pt corrosion of, a | 86 |
cathodes, Pd-Zr, for H2 evolution from H2O, a | 87 |
Pd, anion growth, in DMSO, zero charge potential, a | 191 |
Pd, Pd alloy, H chemical potential, a | 192 |
Pd, H2 uptake in, a | 31 |
Pd-PdO, urease, for urea detection, a | 193 |
Pt, in alkaline fuel cells | 46 |
anion growth, in DMSO, zero charge potential, a | 191 |
hydrous oxide formation, a | 191 |
+ Hg adatoms, catalytic oxidation, a | 86 |
Pt-PVAA/GC, platinum microparticles, activity, a | 134 |
Pt-SPE, a | 33, 134, 191 |
platinised CdS, for H2 evolution, a | 87 |
platinised Pt, a | 33 |
photo, RuO2/n-GaP for H2O photodissociation, a | 87 |
photoresponsive, coated, a | 88 |
, Raman scattering, a | 34 |
thin film, tris(2,2-bipyridine)Ru(II)Pt, a | 34 |
Electrolytes, ammoniacal, for Pd-Ag electrodeposition | 117 |
Electronics, Pd-Ni plating in | 54, 114 |
Emission Control, automotive exhaust catalysts | 150, 174 |
conference | 22 |
diesel engine exhaust, a | 88 |
Energy, solar cells, a | 87 |
Esters, from syngas by Ru-Rh, homogeneous, a | 90 |
Etching, acid, of Pt, inhibition by O2, a | 132 |
catalytic of Pt, Rh-Pt gauzes | 109 |
Ethylene, reactions over platinum metals, a | 37, 86, 194 |
Films, Pd, transport properties, a | 190 |
Pt on Si, stress, reflectivity, a | 132 |
Pt and Ni on < 100 > Si, metallurgical, electrical behaviour, a | 132 |
Ru, a | 141 |
Ru(II) oxide, electrodeposition, a | 136 |
Ta + Pd, H2 absorption rate, a | 84 |
thickness monitors, calibration, a | 136 |
Fischer-Tropsch, reactions, a | 36, 89, 138, 194 |
Formaldehyde, for H2 photoproduction, a | 87 |
Formic Acid, reactions with platinum metals, a | 86, 87 |
Friction, of Pd electrical contact couples, a | 195 |
Fuel Cells | 165 |
alkaline, for vehicle propulsion | 46 |
CO/O2, a | 90, 140 |
electrocatalysts, a | 33 |
future predictions | 150 |
U.S. National Seminar, 1983, Florida | 19 |
Furan, preparation, a | 89 |
Gauzes, Pt, Rh-Pt catalytic etching | 109 |
Pt in CO/O2 fuel cell, a | 90 |
Glass, ZGS platinum “TriM” handling equipment | 7 |
Glasses, metallic, palladium, a | 31, 84 |
superconducting, book review | 106 |
Glycerol, reactions at platinised Pt electrode, a | 33 |
Halides, photooxidation, by RuS2, a | 192 |
n-Heptane, reforming by Pt-Sn/Al2O3-Cl catalysts, a | 35 |
Heterocycles, synthesis, Pd catalysed, a | 38, 89 |
n-Hexane, hydroisomerisation over Pd/zeolite, a | 36 |
l-Hexene, hydrogenation, by modified Pt catalysts, a | 88 |
History, J. B. Boussingault, book review | 189 |
First organometallic compounds, Zeise’s salt | 76 |
Macquer and melting platinum | 25 |
platinotype photography | 178 |
Russian platinum coins | 126 |
thermal analysis | 125 |
Homologation, of olefins by Fischer-Tropsch, a | 138 |
Hydrocarbons, C3H6, 1-hexene, toluene, oxidation, a | 193 |
aromatic, direct systhesis from syngas, a | 194 |
long-chain, from Fischer-Tropsch reaction, a | 194 |
multimetallic catalysts, conference | 80 |
Hydrocracking, n-alkanes over Pt/HZSM-5, a | 35 |
Hydroformylation, aliphatic acids, by Rh, a | 140 |
catalysts for, survey for 1980, a | 89 |
cyclohexene, by Co-Ru complexes, a | 140 |
ethylene, pretreatment of Rh/Y-zeolite, a | 37 |
1-olefin, over Rh catalyst, a | 140 |
Hydrogen, absorption in Pd | 13, 31, 84 |
activation with CO2 for methyl formate production, a | 39 |
adsorption on Pd-Rh catalysts in H2SO4, HCl, a | 86 |
on Pd-rare earth oxides, a | 138 |
chemisorption, a | 31, 139 |
detectors, a | 141, 195 |
atomic, a | 35 |
diffusion | 86, 132, 133 |
embrittlement in Pd-Ag alloys, a | 84 |
isotopes, exchange with C over Pt, Pd catalysts, a | 193 |
solubility in Pd, a | 190 |
permeation in Pd electrodes, H chemical potential measurement, a | 192 |
photoproduction, a | 87 |
from colloidal Pt, in , a | 136 |
at platinised CdS electrode, a | 87 |
by Rh-coated CdS, a | 192 |
by CdS/RuS2, a | 192 |
from Na sulphite, platinised CdS, a | 34 |
from solar cells, a | 136 |
production, by water gas shift reaction, a | 33 |
electrochemical, on Pd-Zr cathode, a | 87 |
at Pt-PVAA/GC electrode, a | 134 |
at Pt-SPE electrode, a | 33 |
reaction with CO over Pd/TiO2, a | 138 |
sensitivity of ZnO thin films with Pd salts, a | 190 |
solubility in platinum metals under high pressure | 158 |
transfer reactions over Rh complexes, a | 140 |
Hydrogenation, over Pd catalysts, a | 36, 138 |
novel electronic effects | 98 |
Pd(II) azo complexes, a | 139 |
over Pd-W, a | 133 |
Pd/C, a | 193 |
Pd/SiO2, a | 193 |
Pt foil, a | 86 |
Pt modified, a | 88 |
Pt/SiO2, a | 193 |
platinum metal nitrosyls, a | 38 |
platinum metal colloid/support, a | 35 |
Rh complexes, asymmetric, a | 90 |
Rh-, Ru-(PPh3), sulphonated complexes, a | 138 |
Rh/Al2O3, a | 36 |
Ru and Os complex catalysts, a | 140 |
Ru-Ni membrane catalyst, a | 135 |
RuCl3/SiO2, liquid-phase, a | 38 |
Hydrogenolysis, alkanes on Pt/SiO2 (EUROPT-1), a | 193 |
Hydroxylation, benzene, by RuOx/TiO2, a | 136 |
Ion, implantation, for Pd-Ti surfaces, a | 34 |
Iproplatin | 14, 157, 168 |
Iridium, compound, radioactive, thermochromatographic behaviour, a | 135 |
hydrogen solubility in | 158 |
Ir nuclei, to measure Compton Profiles, a | 193 |
Iridium Alloys, LaIrSi3, superconductivity, a | 134 |
Zr70Ir30, amorphous, electrical resistance, a | 190 |
Iridium Complexes, review, a | 86 |
Iridium Oxides, electrochromic, hydrous films | 56 |
films, AIROF, SIROF, pH dependence, a | 32 |
Iridium Perovskites, MLaMgIrO6, properties, a | 33 |
Isomerisation, reactions over platinum metals, a | 35, 36, 137, 138, 191 |
Johnson Matthey Collection, American platinotype exhibition | 178 |
Ketones, production, a | 140, 195 |
Langmuir, Irving, history | 31 |
Lasers | 31, 91, 166 |
Macquer, Pierre Joseph, history | 25 |
Magnetic Storage | 116 |
Magnetism, Os in γ -Fe2O3, in recording discs | 116 |
RPd2Si, a | 85, 133 |
Pd-Cu-Fe-Si amorphous alloys, ordering, a | 84 |
Pd-W, changes during hydrogenation. a | 133 |
R5 Pt3 compounds, a | 31 |
Pt-Co thin films | 75 |
Pt-Fe alloys, a | 84, 190 |
rhodium borides, ternary, a | 85 |
CeRu2Si2, a | 32 |
RuO/TiO, paramagnetism, a | 139 |
Matthey Rustenburg, solvent extraction plant | 2 |
Medical, uses of platinum group metals | 14, 157, 168 |
Methanation, over platinum metals, a | 89, 194 |
Methane, oxidation, over Pt/support, a | 35 |
Methyl Formate, production over Ru complexes, a | 39 |
Naphtha, production from syngas over Ru, a | 194 |
Nitrobenzene, reactions over platinum metals | 98, 139, 191 |
Nitrogen Oxides, NO, adsorption on Pt(410), a | 31 |
emissions, catalytic control | 22, 174 |
Olefins, reactions over platinum metals, a | 35, 89, 138, 195 |
Organometallic Complexes | 32, 38 |
in organic syntheses, 1980 survey, a | 89 |
Pd, Pt complexes, properties, a | 85 |
platinum anti-tumour drugs | 14 |
Zeise’s salt, history | 76 |
Osmium, hydrogen solubility in | 158 |
in magnetic discs | 116 |
Os(VI), Os(VIII) acidic behaviour, a | 87 |
thick targets, cross sections, a | 134 |
Osmium Alloys, Osmium-Hafnium, phase diagram, a | 85 |
Osmium-Iron, phase diagrams, a | 85 |
Osmium Complexes, electrochemical oxidation, a | 135 |
Os dichalcogenides, a | 191 |
PPh3M4[Os(NO)Cl4], preparation, a | 33 |
Os-S-CO clusters, synthesis, a | 191 |
Osmium Tetroxide, for electron microscopy, a | 136 |
probe for DNA, a | 137 |
Oxidation, alcohols, a | 134, 195 |
ammonia, catalytic gauzes | 109 |
1,3-butadiene over PdCl2-CuCl2, a | 90 |
catalysts for, 1980 survey, a | 89 |
CO, a | 139, 193 |
coal, by RuO4, a | 37, 140 |
formic acid on Pt electrode, a | 86 |
glycerol at platinised Pt electrode, a | 33 |
methane, over Pt/support, a | 35 |
olefins to ketones, over Pd(II) salts, a | 195 |
Pd,Pt thin films on silicides, a | 31 |
phenol on Pt and graphite anodes, a | 134 |
Oxygen, adsorption over platinum metals, a | 36, 85, 138 |
chemisorption on Os carbonyl clusters, a | 139 |
evolution from RuO2 systems, a | 87, 192 |
inhibition of Pt acid etching, a | 132 |
interaction with Pt(100), a | 132 |
reduction at Pt electrodes, a | 33, 134 |
Palladium, absorption of hydrogen | 13 |
addition to steel, a | 84 |
compound, [Pd(NH3)2Cl2], precipitation, a | 33 |
Pd-Mo, cluster | 168 |
PrPd5, a | 32 |
(RE) Pd3S4 bronze, a | 86 |
films, H chemisorption on, a | 31 |
thin, on silicides, oxidation, a | 31 |
transport properties, a | 190 |
foil, H chemisorption on, a | 31 |
H2 diffusion in, colour effect, a | 132 |
H solubility in | 158 |
in As environmental sampling, a | 136 |
in solar cells, a | 39, 195 |
in ZnO film, H2 sensitivity, a | 190 |
overlayers on Ta films, H2 absorption in, a | 84 |
α -palladium solubility of H,D,T in, a | 190 |
Pd(II)ion, hydrolysis, a | 192 |
Pd/n-GaAs, growth, a | 91 |
Palladium Alloys, absorption of hydrogen | 13 |
electrical contacts, wear, friction, a | 195 |
Palladium-Beryllium, metallic glasses, a | 31 |
Palladium-Boron, metallic glasses, a | 31 |
Palladium-Copper-Hydrogen, superconductivity, a | 133 |
Palladium-Copper-Iron-Silicon, amorphous, a | 84 |
EuPd2Si2, magnetic susceptibility, a | 133 |
Palladium-Gold-Silicon, amorphous crystallisation behaviour, a | 133 |
Palladium-Hydrogen-Silver, structure, electrical resistivity at high H2 pressures, a | 135 |
Palladium-Hydrogen-Zirconium, amorphous, crystalline phases, a | 133 |
Palladium-Iron, magnetic susceptibility, by SQUID, a | 133 |
Palladium-Nickel, coatings | 54, 114 |
Palladium-Phosphorus | 106 |
Pd81Pt19, H2 diffusion in, a | 86 |
Palladium-Silicon, amorphous, crystallisation, a | 84 |
Palladium-Silver, for electrodeposition | 117 |
H embrittlement, a | 84 |
Palladium-Titanium, surfaces, ion implanted, a | 34 |
Palladium-Tungsten, electrical, magnetic properties during hydrogenation, a | 133 |
Palladium-Zirconium, amorphous, a | 87, 133 |
Palladium Complexes, organometallics preparation, properties, a | 85 |
Palladium Hydride, H2 diffusion in, activation volume, a | 133 |
Palladium Silicides, formation, for solar cells, a | 39 |
Pd80Si20, H absorption in, a | 31 |
RPd2Si, magnetic properties, a | 85 |
Paraffins, branched-chain, by Fischer-Tropsch, a | 36 |
pH, dependence of Ir oxide films, a | 32 |
Phase Changes, in RE-rhodium ternary borides, a | 85 |
Phase Diagrams, Os-Hf, a | 85 |
Os-Fe, a | 85 |
Au-Pt-Rh, at 1000°C, a | 132 |
Pt-Ir-Ru, at 1400°C, a | 132 |
Pt-Pd-Ru, at 1400°C, a | 132 |
Pt-Ru-Rh, at 1400°C, a | 132 |
platinum metal alloy systems, book review | 108 |
Ho(Rh1−xRux)4B4 at > 1.3K, a | 134 |
Ru-Fe, a | 32 |
Pheromones, production, over Pd catalysts, a | 89 |
Photocatalysis, a | 34, 87, 88, 135, 136, 168, 192 |
future predictions | 130 |
Photography, platinotype, history | 178 |
Photo-Kolbe, reaction, a | 34 |
Plating, Pd-Ni | 54, 114 |
Platinotype, photography, history | 178 |
Platinum, acid etching, a | 132 |
activation of C electrode, corrosion effect, a | 86 |
anodes, organic adsorption on, a | 191 |
beam leads, Ti/Pt/Au, a | 91 |
cladding on Nb impressed current anodes, a | 90 |
coins, Russian, history | 126 |
colloidal, reactions of MV2+, MV+ and H2, a | 191 |
compounds, lanthanides, magnetic properties, a | 31 |
clusters | 168 |
Pt-Au, the first, a | 190 |
radioactive, thermochromatographic behaviour, a | 135 |
electrode + Hg adatoms for HCOOH oxidation, a | 86 |
films, Cu on, a | 31 |
on Au colloidal, for calibration, a | 136 |
on Si, stress, kinetics, a | 132 |
on silicides, oxidation, a | 31 |
foil, hydrogenations of C2H2, C2H4 on, a | 86 |
hydrogen solubility in | 158 |
hydrous oxide formation, a | 191 |
laser-induced deposition on InP, a | 31 |
melting, early attempts, history | 25 |
Pt(100), reaction with O2, phases, a | 132 |
silicide formation in Pt/Ni/Si, Ni/Pt/Si, a | 132 |
surface composition after polarisation, a | 135 |
thermal diffusion in n-type Si, a | 132 |
Platinum Alloys, Platinum-Cobalt, magnetic thin films | 75 |
Platinum-Gold-Rhodium, phase diagram, a | 132 |
Platinum-Iron, magnetic properties, anisotropy in, a | 84, 190 |
Pd81Pt19, H2 diffusion in, a | 86 |
Platinum-Rhenium, properties, a | 84 |
Platinum-Rhodium, cyclic voltammetry on, a | 135 |
surface composition after polarisation, a | 135 |
Platinum Complexes, in cancer chemotherapy, symposium | 14 |
organometallics, preparation, properties, a | 85 |
[Pt(dien)I] [Pt(dien)I3]I2, a | 32 |
[Ph4As] [Pt(SnCl3)3(1,5-cod)], a | 85 |
[H3NCH2CH2NH3]0.82 [Pt(C2O4)2]. 2H2O, 1D conductor, a | 32 |
Zeise’s salt, history | 76 |
Platinum Metals Alloys, phase diagrams, a | 132 |
book review | 108 |
Platinum Metals Complexes, bis(diphenylphosphine)methane, a | 32 |
nitrosyls, in pollution control, a | 38 |
Poisoning, lead, on Pd catalyst | 105 |
Pollution Control, As in water, detector, a | 136 |
automotive exhaust | 22, 150, 168 |
high temperature durability trial | 174 |
CO, a | 137 |
diesel engine exhaust, a | 88 |
Pt/ceramic catalyst in wood-burning stove | 115 |
platinum metal nitrosyls, a | 38 |
Powder Metallurgy, history, for platinum coins | 126 |
Propylene, reactions over platinum metals, a | 89, 193 |
Pyrroles, production over Pd catalysts, a | 89 |
Quinone, hydrogenation | 98 |
Reduction, catalysts for, 1980 survey, a | 89 |
Refining, platinum metals, new Royston plant | 2 |
Resistors, RuO thick film, a | 39, 195 |
Review, bis(diphenylphosphine)methane-platinum group | |
metal complexes, a | 32 |
catalytic combustion | 12, 193 |
homogeneous asymmetric catalysis, a | 139 |
hydrocarbon reactions on bimetallic catalysts, a | 194 |
hydroformylation of unsaturated fatty acids, a | 140 |
Ir, Rh complexes, a | 86 |
olefins to ketones with Pd(II) salts, a | 195 |
organometallic complexes of Pt,Pd, a | 85 |
platinum metal nitrosyls in pollution control, a | 38 |
solar cells, a | 136 |
superconductivity in platinum metals and alloys | 63 |
transition metals in organic syntheses, a | 89 |
ultrafine metal particles in organic syntheses, a | 139 |
Rhodium, compounds, ErRh4B4, ferromagnetism, superconductivity, a | 32 |
H2Ru2Rh2(CO)12, clusters, synthesis, structure, a | 86 |
Rh-Er-Sn, crystal structure, a | 133 |
RE-Rh-B, phases, magnetism, a | 85 |
Ho(Rh1−xRux)4B4, phase diagrams, a | 134 |
(Sm-Er) Rh4B4 superconducting magnetic transitions, a | 85 |
Zr2Rh, superconducting film tunnel junctions, a | 32 |
hydrogen solubility in | 158 |
polycrystalline, O2 adsorption, a | 85 |
silicides, LaRh2Si2, La3Rh3Si5, LaRhSi3, crystal structure, superconductivity, a | 134 |
surface composition, after polarisation, a | 135 |
Rhodium Alloys, Rhodium-Copper, single crystals, a | 190 |
Rhodium-Gold-Platinum, phase diagrams, a | 132 |
Rhodium-Molybdenum-Phosphorus, superconducting glasses | 106 |
Rhodium-Platinum, surface composition after polarisation | 135 |
Rhodium Complexes, [Rh4(CO)12],[Rh6(CO)16], interaction with Al2O3, TiO2, TiO2 + SiO2, a | 138 |
iodopentaamminerhodium(III), photoaquation, a | 34 |
[Rh(C7H6O2N)2Cl. H2O], [Rh(C7H6O2N3]. H2O, a | 134 |
Rh porphyrins, a | 87, 136 |
review, a | 86 |
Ruthenium, chemistry, book review | 177 |
compound, BaRu1−xCoxO3−y, structure, a | 86 |
clusters | 168 |
CeRu2Si2, magnetic properties, a | 32 |
RuS2, single crystals, growth, properties, a | 85 |
n-RuS2, stability, anodic photocorrosion, a | 192 |
electrodeposition from sulphamate, a | 88 |
hydrogen solubility in | 158 |
H2Ru2Rh2(CO)12, clusters, synthesis, structure, a | 86 |
[Ru(001)] chemisorption on, a | 190 |
Ru(II), Ru(IV) in TiO2 + Ta, a | 134 |
vapour deposition, a | 141 |
Ruthenium Alloys, Ho/Rh1−xRux)4B4, phase diagrams, a | 134 |
Ruthenium-Copper, for electrical contacts | 62 |
Ruthenium-Iron phase diagram, properties, a | 32 |
Ruthenium-Molybdenum-Phosphorus, superconducting glasses | 106 |
Ruthenium Complexes, reduction, a | 34 |
tris(2,21-bipyridine)Ru(II) quenching by methylviologen, a | 135 |
Ru2(CO)2(μ -H2) (η -C5Me5)2, a | 191 |
Ru dichalcogenides, a | 191 |
pentamethylcyclopentadienyl di-Ru, chemistry, a | 191 |
, electrochemical oxidation, a | 135 |
Ruthenium Oxides, electrodeposition, a | 136 |
RuO2, thick film resistors, TCR in | 39, 195 |
RuO2-polypyrrole films, for H2O photo-dissociation, a | 87 |
RuO4 for coal oxidation, a | 37, 140 |
Schottky Barriers | 52, 91 |
Schottky Junction, effect in air and H2, a | 87 |
SIROF, pH response, a | 32 |
SMSI, effects, a | 37, 138 |
Sodium Bicarbonate, reduction over Pd catalysts, a | 34 |
Solar Cells, a | 39, 136, 195 |
Solvent Extraction, platinum metals, new plant | 2 |
SQUID, for magnetic susceptibility in PdFe, InMn, a | 133 |
Steel, Pt effect on sulphide stress cracking, a | 84 |
Stoves, wood-burning, platinum catalyst in | 115 |
Superconductivity, LaIrSi3, crystal structure, a | 134 |
Zr10Ir30, electrical resistance, a | 190 |
Pd-Cu-H solid solutions, a | 133 |
in platinum metals and alloys | 63 |
ErRh4B4, a | 32 |
(Sm-Er)Rh4B4, magnetic transitions, a | 85 |
Er-Rh-Sn, crystal structure, a | 133 |
Rh-La-Si, a | 134 |
Ho(Rh1−xRux)4B4, a | 134 |
Zr2Rh films, tunnel junctions, a | 32 |
Synthesis Gas, conversions over platinum metals, a | 38, 90, 194 |
Tantalum, films + Pd, H2 absorption, a | 84 |
Temperature Measurement, Deltalog thermocouple monitor | 107 |
history | 125 |
nuclear thermometry, a | 39 |
Thermal Analysis, history | 125 |
Thermal Conductivity, temperature values of platinum | 164 |
Thermocouples, platinum :rhodium-platinum | 61, 195 |
history | 125 |
recalibration device | 107 |
Thermoelectric Power, of Pd films, a | 190 |
Thick Films, RuO2 resistors, a | 39, 195 |
Thin Films, Ir oxide, electrochromic, hydrous | 56 |
Ir-Ta, metal-semiconductor contact | 52 |
Os + γ -Fe2O3 sputtered, in storage discs | 116 |
Pd on silicides, oxidation, a | 31 |
Pd salts in ZnO, H2 sensitivity of, a | 190 |
Pt, anodic Cu on, properties, a | 31 |
Pt-Co sputtered magnetic | 75 |
Pt on silicides, oxidation, a | 31 |
Zr2Rh superconducting tunnel junctions, a | 32 |
Toluene, reactions over platinum metals, a | 36, 89 |
Tritium, solubility in Pd, a | 190 |
1-Undecene, hydrogenation by Pt catalysts, a | 88 |
Urea, determination by Pd-PdO urease electrode, a | 193 |
Voltammetry, a | 32, 34, 135 |
Water, photochemical splitting, a | 34, 87, 135, 136 |
Water Gas Shift Reaction, a | 33, 37, 38 |
Wear, on Pd electrical contacts, a | 195 |
Willis, William, history | 178 |
Wood, burning stove, Pt catalyst in | 115 |
Young’s Modulus, glassy Pd-Si-H alloys, a | 84 |
Zeise, William Christopher, history | 76 |
ZGS Platinum “TriM” | 7 |