AIROF, thin film cells, electrochromism in, a |
130 |
Alcohol, allyl, reaction with triorganosilane, a |
85 |
catalysis by Ru(II)Cl2(PPh3)3Ru(II), a |
134 |
synthesis over Ru hydride, a |
46 |
Alkenes, hydrogenation over Pd/graphite, a |
177 |
Alkylbenzene, hydrogenation over Pd/–, Ru/Al2O3, a |
177 |
Alkynes, hydrogenation over Pd/graphite, a |
177 |
Ammonia, aqueous, oxidation on platinum metal, a |
83 |
Aniline, synthesis by Pd(C6H5CH)2Cl2, a |
134 |
Aromatisation over platinum metals, a |
85, 132 |
Benzene, hydrogenation over platinum metals, a |
132, 133, 176 |
Bollmann, Justus Erich |
163 |
Bonding in metal clusters |
62 |
reaction, ceramics to Pt foil |
152 |
Book Review, Heterogeneous Catalysis in Practice |
23 |
Cancer treatment drugs, conferences |
71, 156 |
Capacitor, Pd gate MOS, for H2 sensors, a |
178 |
Carbon Oxides, CO2, hydrogenation over platinum metals/Al2O3, a |
85 |
photoproduction from hydrocarbons, a |
83 |
CO, adsorption on Ru/zeolite, a |
133 |
conversion to CO2 over Se/Pt black, a |
85 |
for reduction of NO on Rh(331), a |
86 |
hydrogenation by Ru3(CO)12, a |
85 |
oxidation over Pt/γ -Al2O3, a |
132 |
Carboxylic Acids, esters, hydrogenation by Ru hydride complex, a |
46 |
Catalysis, heterogeneous, book review |
23 |
homogeneous, conference |
156 |
Catalysts, dual bed, a |
132 |
for biologically active compounds, a |
134 |
three-way |
14, 132 |
Iridium, for graphite hydrogenation, a |
86 |
Iridium Complex, carbonyls, a |
176 |
Ir/Al2O3, for CO2 hydrogenation, a |
85 |
for ethane, cyclopentane hydrogenolysis, benzene hydrogenation, a |
176 |
Ir/support, for isocyanate formation, a |
133 |
Palladium, for olefin to ketones, a |
133 |
for SO2 oxidation, a |
130 |
oxide, for SO2 oxidation, a |
130 |
Pd/Pt/RuO2/TiO2 powder, for H2 photoproduction from H2O and MeOH, a |
43 |
recovery from Pd/C waste, a |
87 |
Palladium Complexes, Pd(C6H5CH)2Cl2, for C6H5NO2 and p-ClC6H4NO2 reduction, a |
134 |
(PPh)2Pd5 for cyclohexene dehydrogenation, a |
85 |
Pd-Ru membrane, for hydrogenation, a |
86 |
for H2 extraction from CO, CO2 mixture, a |
177 |
Pd-SiO2-Si, H2 sensitive, a |
175 |
Pd-Sn, for electroless plating, a |
44 |
Pd/Al2O3, for alkylbenzene hydrogenation, a |
177 |
for CO2 hydrogenation, a |
85 |
for cyclic butadiene oligomer hydrogenation, a |
133 |
for dihydrolinalool hydrogenation, a |
45 |
for furfural decarbonylation, a |
45 |
Pd-KBr-, Pd-NaBr/γ -Al2O3, for ethylbenzene dehydrogenation, a |
176 |
Pd/aluminosilicate, for ethylene oligomerisation, a |
45 |
Pd-AcOK/amorphous aluminosilicate, for oxidative acetoxylation of propylene, a |
177 |
Pd/CaCO3, for hydrogenation, a |
133 |
Pd/C, for cyclic butadiene oligomer hydrogenation, a |
133 |
for furfural decarbonylation, a |
45 |
Pd/graphite, for aromatic nitro-compounds, alkenes, alkynes hydrogenation, a |
177 |
PdCu/mordenite, for ethylene oxidation, a |
133 |
Pd/nylon-66, characterisation, a |
133 |
Pd/support, characterisation by Cu(II) formate decomposition rate, a |
177 |
for isocyanate formation, a |
133 |
for methanol oxidation, a |
133 |
stability against S, a |
132 |
Pd/zeolite, for ethylene oligomerisation, a |
45 |
for n-hexane isomerisation, a |
86 |
PdCu/zeolite, for ethylene oxidation, a |
133 |
Platinum, compounds, for H2 photoproduction, a |
174 |
for emission control, MacRobert Award |
22, 112 |
for graphite hydrogenation, a |
86 |
for H2 photoproduction, a |
174 |
lead tolerant |
142 |
oxide, for H2O2 decomposition, a |
43 |
pad, in flameless combustion heater, a |
175 |
particles, with viologen intermediates, for H2 photoproduction from H2O, a |
131 |
platinised TiO2, for photocatalysis, a |
83, 131, 174 |
platinised SrTiO3, for H2 photoproduction, a |
43, 131 |
Pt/Pd/RuO2/TiO2 powders, for H2 photoproduction from H2O and MeOH, a |
43 |
Pt/RuO2/CdS dispersions, for H2, O2 photoproduction, a |
131 |
with enzyme for D-mannitol production, a |
45 |
Platinum Complexes, carbonyls, a |
176 |
H2PtCl6, for allyl alcohol reaction with triorganosilane, a |
85 |
[Pt(ER3XCO)Cl2] + SnCl2 for olefin hydroformylation, a |
177 |
Platinum Alloys, for fuel cells |
161 |
Pt-Ir, for graphite hydrogenation, a |
86 |
Pt-SiO2-Si, H2 sensitive, a |
175 |
Pt/Al2O3, deactivation effect on sensitivity, a |
44 |
for air pollution control |
61 |
for CO2 hydrogenation, a |
85 |
for ethane, cyclopentane hydrogenolysis, benzene hydrogenation, a |
176 |
for n-heptane reforming, a |
85 |
for methane combustion, a |
44 |
Pt/γ -Al2O3, chlorine modified, behaviour of, a |
44 |
for hydrocarbon and CO oxidation, a |
132 |
GeO2 modified, for hydrocarbon aromatisation, a |
85 |
for NO reduction by H2, a |
85 |
Pt-Cr/Al2O3, physico-chemical study of, a |
45 |
Pt-Ir/Al2O3, thermal stability of, a |
176 |
Pt-Ru/Al2O3, for conversion, hydrogenation, a |
132 |
properties, a |
86 |
Pt-Li/η -Al2O3, n-decane dehydrogenation, a |
45 |
Pt/C, for waste electroplating water treatment, a |
175 |
Pt/mordenite, Ag-exchanged, for heptane transformation, a |
176 |
Pt/Pt, for H2O2 decomposition, a |
44 |
Se/Pt black, for water gas shift reaction, a |
85 |
Pt/SiO2, for toluene hydrogenation, a |
45 |
review of carriers, a |
44 |
(Mo + Pt)/SiO2, for n-hexane conversion, a |
176 |
(Re + Pt)/SiO2, for n-hexane conversion, a |
176 |
Pt-Ru/SiO2, for conversion, hydrogenation, dehydrogenation, a |
132 |
(Sn + Pt)/SiO2, physical properties, a |
176 |
(W + Pt)/SiO2, for n-hexane conversion, a |
176 |
Pt/support, stability against S, a |
132 |
Pt/Y zeolite, for toluene hydrogenation, a |
45 |
Pt metals/Al2O3, for ethylene aromatisation, a |
132 |
Rhodium, for H2 photoproduction, a |
174 |
Rh(331) surface, NO reduction by CO, a |
86 |
Rhodium Complexes, carbonyls, a |
85, 176 |
Rh(PPh3)3Cl, a |
134 |
with O2 for hydrosilation, a |
177 |
with TiO2 powder, for H2 photoproduction from H2O and MeOH, a |
43 |
[(RhC5Me5)2Cl4] for α -olefin conversion, a |
177 |
RhHCO(PO3)3, for 1-hexene hydroformylation, a |
134 |
[closo-1,3-μ -(η -3,4,-CH2:CHCH2CHz)-3-H-3-PPh3-3,1,2-RhC2B9H10], most active homogeneous hydrogenation catalyst, a |
45 |
Rh-Pt, three-way |
14 |
Rh/Al2O3, for CO2 hydrogenation, a |
85 |
highly dispersed, preparation, a |
86 |
Rh/C, for 2-nitrostyrene hydroformylation, a |
133 |
Rh(CO)2Cl/polymer-NC, preparation, a |
86 |
Rh/SiO2, for NO reduction by CO, a |
86 |
Rh/support, for isocyanate formation, a |
133 |
Rh/TiO2, for NO reduction by CO, a |
86 |
Ruthenium, for coal liquefaction |
50 |
Ru-based mixed oxide anode, a |
130 |
Ru(IV) oxide, for ethylene glycol synthesis, a |
178 |
RuO2/Nb-doped n-TiO2/Pt powder, for H2 photoproduction from H2O, a |
43 |
RuO2/TiO2/powder, for H2 photoproduction from H2O and MeOH, a |
43 |
Ruthenium Complexes, for methyl viologen photoreduction, a |
175 |
Ru(III) acetylacetonate, for ethylene glycol synthesis, a |
177 |
, MV, EDTA, Pt hydrosols, for H2O photoreduction, a |
84, 174 |
with Zn complex for viologen photoreduction, a |
131 |
(bpy)2(py)RuO2+ and (trpy)(bpy)RuO2+ polymer, anodes, for oxidation, a |
130 |
, for MV+ photoproduction, a |
84 |
, RuO2/Pt/colloidal TiO2, for H2O photolysis, a |
83 |
, RuO2, MV, EDTA for H2 photoproduction from H2O, a |
84 |
Ru(II)Cl2(PPh3)3Ru(II) for homogencous H transfer from alcohols to olefins, a |
134 |
RuCl2(PPh3)3-polystyrene anchored for isomerisation, a |
134 |
carbonyls, a |
176 |
Ru3(CO)12, for homogeneous CO hydrogenation, a |
85 |
Ru hydride, for homogeneous hydrogenation of carboxylic acid esters, a |
46 |
Ru-Pd membrane, for H2 extraction from CO, CO2 mixture, a |
177 |
Ru/Al2O3, for alkylbenzene hydrogenation, a |
177 |
for CO2 hydrogenation, a |
85 |
for coal liquefaction |
50 |
Ru-Pt/Al2O3, properties, a |
86 |
Ru/support, for Fischer-Tropsch reaction |
50 |
for isocyanate formation, a |
133 |
Ru/zeolite, CO adsorption on, a |
133 |
Ceramics, reaction bonded to Pt |
152 |
Cermets, Pt-SiO2 films, a |
42 |
Chemiluminescence, a |
131 |
p-Chloronitrobenzene, a |
134 |
Clusters, [Os6Au(CO)20H2], a |
174 |
properties |
62 |
Coal, gasification by Fisher-Tropsch process |
50 |
Coatings, Pd, Ag on Ta wire, H2 adsorption on, a |
173 |
Pd/Ti tubes in oil refinery condensers, a |
178 |
Pt aluminide, diffusion on gas turbine blades |
94 |
Pt on microspheres, a |
44, 175 |
Conference, Platinum Group Metals, Bristol, 1981 |
156 |
Inorganic Biochemistry, London, 1980 |
71 |
Photochemical Conversion and Storage of Solar Energy |
11 |
Corrosion, environmental, in gas turbine blades |
94 |
properties, Pd/Ti tubes in condensers, a |
178 |
properties, Pd-Ag alloys, a |
129 |
properties, Ru-Cr alloys, a |
174 |
resistant alloys, Ru-Mo-X, a |
173 |
resistant alloys and steels, a |
82 |
Cyelohexane, dehydrogenation over Pt-Ru/support, a |
132 |
Cyclohexene, dehydrogenation with O2 over (PPh)2Pd5, a |
85 |
Cyclopentane, hydrogenolysis over Ir/Al2O3, Pt/Al2O3, a |
176 |
n-Decane, dehydrogenation over Pt-Li/η -Al2O3, a |
45 |
Decarbonylation over Pd/Al2O3, Pd/C, a |
45 |
Dehydrogenation over platinum metals, a |
45, 85, 132 |
Detectors, formaldehyde vapour |
159 |
high-temperature, in nuclear reactors, a |
132 |
hydrogen, a |
84, 132 |
oxygen |
42, 152 |
Deuterium, electrolytic separation from T, using Pd-Ag electrodes, a |
174 |
Deville, Henri Sainte-Claire |
121 |
Diodes, a |
135 |
Dioxin, destruction by RuO4 |
160 |
Electrical Contacts, Pd-As, Pd-Ga alloy, a |
178 |
Pd-Ir alloys in, a |
131 |
Pd2Si/Si, very thin, a |
135 |
Pt2Si, Pt1.2Si, co-deposited, shallow, a |
46 |
Rh-Ni, a |
84 |
Electrochromism in thin film cells, a |
130 |
Electrodeposition, Ir-Pd alloy, a |
131 |
platinum metals, historical review |
32 |
Rh, a |
175 |
Rh-Ni alloys, a |
84 |
Ru, on sealed reed contacts, a |
84 |
Electrodes, IrO2/Ti, heat treatment, life of, a |
43 |
Pd and PdO, for H2SO4 production, a |
130 |
PdXO2 thin film, for O2 reduction, evolution, a |
43 |
Pd-H, in PallapHode pH meter |
72 |
Pd-Ag, for H isotope separation, a |
174 |
Pd/Pt, for aqueous NH3 oxidation, a |
83 |
Pt, palladised or platinised, in fuel cells, a |
87 |
Pt, porous, for fuel cell |
56 |
Pt, reduction of thick oxide films on, a |
130 |
PtCoO2 thin film, for O2 reduction, evolution, a |
43 |
Pt-Rh, in fuel cells, a |
87 |
organic films/Pt, a |
83 |
Pt/Pt, for aqueous NH3 oxidation, a |
83 |
Pt/Ti anode, durability in D-ribono-γ -lactone electroreduction, a |
174 |
Rh/Pt, for aqueous NH3 oxidation, a |
83 |
Ru oxides, stability for O2 evolution, a |
130 |
Ru oxide/Ti, durability in D-ribono-γ -lactone electroreduction, a |
174 |
RuO2 + TiO2 thin film, photoproperties, a |
175 |
(bpy)2(py)RuO2+ and (trpy)(bpy)RuO2+, polymer, a |
130 |
Emission Control, car exhaust |
142 |
catalyst, MacRobert Award |
22, 112 |
nitrogen oxide from automobile engines |
14 |
Energy, electrical, photoproduction with p-LuRhO3 cathodes, a |
42 |
solar, absorption in Pt-Al2O3, Pt-SiOx, a |
173 |
solar, conversion and storage |
11 |
solar, photocatalytic conversion, review, a |
43 |
Engines, automobile, emission control of |
14 |
gas turbines, blade protection of |
94 |
Ethane, hydrogenolysis over Ir/Al2O3, Pt/Al2O3, a |
176 |
Ethylbenzene, oxidative dehydrogenation over Pd-NaBr/γ -Al2O3 and Pd-KBr/γ -Al2O3, a |
176 |
Ethylene, reactions over platinum metals, a |
45, 132, 133 |
Ethylene Glycol, synthesis by Ru compounds, a |
178 |
Extraction, liquid–liquid from ore |
106 |
Fatigue, platinum metals, crack growth in |
24 |
Ti alloy, improvement by Pt ion plating, a |
44 |
Firearms, platinum touchholes in |
74 |
Fischer-Tropsch reaction |
50 |
Formaldemeter, formaldehyde detector |
159 |
Fuels, gasoline with Pb additive |
142 |
liquid, production from coal |
50 |
Fuel Cells, biochemical, review, a |
87 |
detector for formaldehyde vapour |
159 |
high temperature, for electricity and HNO3 |
56 |
methanol-air, a |
134 |
U.S. National Seminar |
161 |
Glass, Pd77.5Cu6Si16.5, amorphous, properties, a |
82 |
working, Pt apparatus |
163 |
Heater, catalytic, a |
175 |
n-Heptane, reactions over platinum metals, a |
85, 132, 176 |
n-Hexane, reactions over platinum metals, a |
86, 176 |
1-Hexene, hydroformylation by RhHCO(PO3)3, a |
134 |
History, J. E. Bollmann |
163 |
electroplating the platinum metals |
32 |
Henri Sainte-Claire Deville |
121 |
platinum activities in N. America and Europe |
163 |
platinum in flintlock firearms |
74 |
Hydrocarbons, aromatisation, over Pt/γ -Al2O3, GeO2 modified, a |
85 |
conversion in automobile emission |
14 |
conversion over Pt/γ -Al2O3, Cl2 modified, a |
44 |
conversion review of SiO2 catalyst carriers, a |
44 |
dienes, hydrogenation over Pd-Ru, a |
86 |
liquid, from coal |
50 |
oxidation over Pt/γ -Al2O3, SO2 effects, a |
132 |
photocatalytic oxidation to CO2, a |
83 |
water gas shift reaction |
14, 85 |
Hydroformylation over platinum metals, a |
85, 133, 134, 177 |
Hydrogen, absorption in Fe, Pt effect on, a |
42 |
absorption in LaPt5, ThNi5, YNi5, a |
129 |
absorption by Pd, Ag, coated Ta wire, a |
173 |
adsorption, by Pt-Sn alloys, a |
42 |
detectors, a |
84, 132, 178 |
diffusion in Pd-Cu and Pd-Nb alloys, a |
42 |
diffusion in Pd-Dy, Pd-Er, a |
129 |
for NO reduction on Pt(III), a |
173 |
extraction from CO, CO2 mixture by coated Ru-Pd membrane catalyst, a |
177 |
flameless combusion over Pt, a |
175 |
generation for industrial use |
12 |
ion concentration, measurement |
72 |
isotopes, electrolytic separation, a |
174 |
permeability in Pd-Ag, Pd-Ni alloys, a |
42 |
permeability in Pd-Dy, Pd-Er alloys, a |
129 |
permeation through Pd membrane, a |
174 |
photoproduction from water, a |
42, 43, 83, 84, 131, 174, 175 |
photoproduction, review of catalysts for, a |
174 |
sensitive Pd (or Pt)-SiO2-Si, a |
175 |
solubility in Pd-Dy, Pd-Er, a |
129 |
structure in f.c.c transition metals, a |
129 |
Hydrogen Peroxide, catalytic decomposition, a |
43, 44 |
Hydrogenations over platinum metals, a |
45, 46, 85, 86, 132, 133, 176, 177 |
Hydrogenolysis over platinum metals, a |
176 |
Hydrosilation over platinum metals, a |
177 |
IMPATT devices, failure, a |
134 |
Indoles, production, a |
133 |
Ion, flotation of platinum metals, a |
87 |
implantation, Pd, for Ti corrosion stability, a |
129 |
plating, Pt, effect on Ti alloy fatigue, a |
44 |
Iridium, oxidation of powder in air, a |
42 |
Iridium Alloys, Iridium-Palladium, electrodeposition, a |
131 |
Iridium-Tungsten, Th additions in, a |
173 |
Iridium Oxide, AIROF cells, electrochromism in, a |
130 |
films, a.c. response, a |
83 |
IrO2 + RuO2, solid solutions, mutual solubility, a |
82 |
Isocyanate, formation, a |
133 |
Isomerisation over platinum metals, a |
86, 134, 174 |
Ketones, production, a |
133 |
Lead, effect on emission control catalysts |
142 |
MacRobert Award for emission control catalyst |
22, 112 |
D-mannitol, preparation, a |
45 |
Medical, conferences on anti-cancer drugs |
71, 156 |
dental alloys, a |
87, 135 |
Methane, combustion on Pt/Al2O3 fibres, a |
44 |
Methanol, oxidation over Pd/support, a |
133 |
Nitric Oxide, reduction over platinum metals, a |
85, 86, 173 |
Nitrobenzene, reduction by Pd(C6H5CH)2Cl2, a |
134 |
Nitrogen Oxide, automobile, emission, control of |
14 |
Oil refineries, Pd/Ti tubes in condensers, a |
178 |
Olefins, conversion to unsaturated silanes by [RhC5Me5)2Cl4], a |
177 |
hydroformylation by [Pt(ER3)(CO)Cl2] + SnCl2, a |
177 |
photo-isomerisation by trans -[PtCl2(tmpy)(C2H4)], a |
174 |
synthesis by Ru(II)Cl2(PPh3)3Ru(II), a |
134 |
terminal, oxidation by H2O2 over Pd, a |
133 |
Oligomerisation over platinum metals, a |
45 |
Organic Solvents, pollution, control of |
61 |
Organometallic Complexes, conference |
156 |
Osmium, cluster, [Os6Au(CO)20H2], a |
174 |
compound, MOsB2, superconductivity in, a |
82 |
Osmium Complexes, Os(OEP)[P(OMe)3]2, photolysis, a |
131 |
Oxidation over platinum metals, a |
42, 130, 133 |
Oxygen, sensors |
42, 152 |
adsorption on Pt(III), a |
82 |
effect on diffusion in Pt-Ni-Pt films, a |
129 |
evolution on Ru mixed oxide electrodes, a |
130 |
evolution, reduction by thin film electrodes, a |
43 |
photoproduction from H2O by platinum metals, a |
42, 43, 83, 84, 131, 174 |
Palladium, compound, PdB2O4, first Pd borate, a |
43 |
compound, M[Pd(OH)6], M = K, Rb, a |
173 |
contact resistance of, a |
135 |
fatigue and fracture in |
24 |
H2 structure in, a |
129 |
ion implantation, a |
129 |
layers a-Si, hydrogenated, for diodes, solar cells, a |
135 |
membrane, H2 permeation through, a |
174 |
refining from Pd/C waste, a |
87 |
thin film on Ta wire, H2 adsorption on, a |
173 |
thin films on Ti, in oil refinery condensers, a |
178 |
Palladium Alloys, dental, a |
87, 135 |
Palladium-Arsenic, in semiconductors, a |
178 |
Palladium-Chromium, phases in, a |
173 |
Palladium-Copper, H2 diffusivity, a |
42 |
Palladium-Copper-Silicon, amorphous wire, a |
134 |
Palladium-Gallium, in semiconductors, a |
178 |
Palladium-Iridium, electrodeposition, a |
131 |
Palladium-Iron, electrical resistivity, a |
129 |
single crystal, solid solution decomposition, a |
82 |
Palladium-Nickel membranes, H2 permeability, a |
42 |
Palladium-Niobium, dilute, H2 diffusivity, a |
42 |
Palladium-Rare Earths, H2 in, a |
129 |
Palladium-Silicon, plastic deformation, a |
82 |
Pd-a-Si:H interface structure, a |
173 |
Pd-SiO2-Si, H2 sensitive, a |
175 |
Palladium-Silver, contact resistance, a |
135 |
corrosion, a |
129 |
membranes, H2 permeability in, a |
42 |
membranes for H2 production, a |
12 |
TiPd-TiNi, shape memory in, a |
129 |
Palladium-Vanadium, phases in, a |
173 |
Palladium Complexes, co-ordinated drug, a |
83 |
organic, survey for 1978, a |
43 |
Palladium Oxide, free energy of formation, for O2 sensor, a |
42 |
PallapHode Pd-H electrode pH meter |
72 |
Photocatalysis, a |
42, 43, 44, 83, 131, 174, 175 |
Plating, electroless Sn-Pd catalysts, preparation from hydrous melts, a |
44 |
ion, Pt on Ti-Al-Sn-Zr-Mo alloys, a |
44 |
Pd-Ir, for electrical contacts and motors, a |
131 |
Rh on Ti-Zr-Mo alloy, a |
175 |
Rh-Ni alloys, for electrical contacts, a |
84 |
solutions, Ru, a |
84 |
Platinum, adsorption of O2, reactivity to H2 and CO, a |
82 |
coatings on microspheres, a |
44, 175 |
coinage |
163 |
compounds, K2Pt(SCN)4, luminescence, a |
82 |
compounds, LaPt5, H2 absorption in, a |
129 |
effect on H2 absorption by Fe, a |
42 |
electrode, reductin of thick oxide films, a |
130 |
fatigue and fracture in |
24 |
films, cermet, Pt-SiO2, structure, properties, a |
42 |
films, organic, on electrode, a |
83 |
films, Pt-Ni-Pt, Ni diffusion into Pt, a |
129 |
in guns, pistols, rifles |
74 |
oxidised, for catalytic decomposition of H2O2, a |
43 |
Pt-SiO2-Si, H2 sensitive, a |
175 |
Pt(III) surface for NO reduction with H2, a |
173 |
reaction bonded to ceramics |
152 |
Pt/n-GaAs interface reaction, after annealing, a |
134 |
Platinum Alloys, dental, ageing, a |
87 |
Platinum-Rhodium, fatigue and fracture in |
24 |
Platinum-Tantalum, phases in, a |
173 |
Platinum-Tin, electrocatalytic properties, a |
42 |
Platinum Complexes, allyl(hydrido)Pt(II), a |
130 |
trans -[PtCl2(tmpy)(C2H4)], for photoisomerisation of olefins, a |
174 |
Pt5(CO)6[P(C6H5)3]4, synthesis, a |
130 |
PtCo2(CO)8[P(C6H5)3], synthesis, a |
130 |
organic, survey for 1978, a |
43 |
Platinum Metals, cluster compounds |
156 |
compounds, organometallic with P, literature survey to July 1979, a |
43 |
early chemistry and metallurgy |
121 |
electroplating of |
32 |
future supplies |
105 |
ion flotation and separation of, a |
87 |
liquid–liquid extraction from ore |
106 |
reactions with alkali metals |
113 |
refinery utilising solvent extraction |
31 |
resistance to fatigue crack growth |
24 |
Platinum Metals Alloys, corrosion resistant, a |
82 |
Platinum Metals-Alkali Metals, preparation, properties |
113 |
PLATMOS, hysteresis and memory in MOS, a |
46 |
Pollution Control, exhaust emission, MacRobert award |
22, 112 |
lead tolerant car exhaust catalyst |
142 |
organic solvents in air over Pt/Al2O3 |
61 |
three-way catalyst systems |
14 |
waste electroplating water, Pt/C catalyst for, a |
175 |
Propene, hydroformylation by Rh carbonyls, a |
85 |
Propylene, oxidation over platinum metals, a |
177 |
Reed Switches, Ru plated, a |
84 |
Refining oil, Pd coated Ti condenser, a |
178 |
platinum metals |
31, 87, 106, 156 |
Resistance Thermometers, platinum |
2, 46, 178 |
Rh-Fe alloy and SQUID at 0.01K |
57 |
Review, biochemical fuel cells, a |
87 |
organic complexes of Pt, Pd, Ni, survey for 1978, a |
43 |
photocatalytic conversion of solar energy, a |
43 |
organometallic compounds with P, literature review to July 1979, a |
43 |
SiO2 catalyst carriers, in hydrocarbon conversion, a |
44 |
Rhodium, compound LuRhO3, properties, a |
42 |
plating on Ti-Zr-Mo alloy, a |
175 |
Rhodium Alloys, Rh-Ni, electrodeposition, a |
84 |
Rhodium Complexes, trans -(Ph3P)2Rh(CO)(OCO2H), a |
130 |
Rustenburg Platinum Mines |
70 |
Ruthenium, compound MRuB2, superconductivity, a |
82 |
electrodeposition, measurement of, a |
84 |
oxidation of powder in air, a |
42 |
Ruthenium Alloys, Ruthenium-Chromium, corrosion in H2SO4, a |
174 |
phases in, a |
173 |
Ruthenium-Molybdenum-X, corrosion resistance of, a |
173 |
Ruthenium Complexes, for methyl viologen photoreduction, a |
175 |
, photocatalyst, a |
84 |
, luminescence of, a |
84 |
and oxalate or organic acid, electrogenerated chemiluminescence, a |
131 |
, for methyl viologen reduction, a |
175 |
Ru bipyridyls, for UO22+ photoreduction, a |
84 |
, for photolysis, a |
84 |
Ru(bipy)3Br2.6H2O, luminescence, a |
83 |
Ru(bipy)3(ClO4)2, luminescence, a |
83 |
Zn0.999Ru0.01(bipy)3SO4, luminescence, a |
83 |
Ruthenium Oxide + IrO2, solid solutions, mutual solubility, a |
82 |
Ruthenium Dioxide for water catalysis, a |
84 |
Ruthenium Tetroxide, control of dioxin |
160 |
Sasol, coal liquefaction |
50 |
Schottky Cells, a |
135 |
Semiconductors, PdAs2, PdGa alloys, a |
178 |
PLATMOS, Pt induced hysteresis in MOS, a |
46 |
Seminar, U.S. National Fuel Cell Seminar |
161 |
Sensors, ammonia, argon, ethanol, a |
175 |
formaldehyde vapour |
159 |
high-temperature, a |
132 |
hydrogen, a |
84, 132, 178 |
hydrogen sulphide, a |
175 |
oxygen |
42, 152 |
smoke, a |
175 |
Shape Memory in TiNi-TiPd alloys, a |
129 |
Solar Cells |
11, 135 |
SQUID + Rh-Fe alloy, for low temperature measurements |
57 |
Steel, stainless, modified by platinum metals, a |
82 |
Sulphur contaminant, catalysis product, a |
132 |
Sulphur Dioxide, catalytic oxidation to H2SO4, a |
130 |
effect on hydrocarbon and CO oxidation over Pt/γ -Al2O3, a |
132 |
Sulphuric Acid, first platinum still for |
163 |
production from SO2 oxidation, a |
130 |
Superconductivity, SQUID |
57 |
ternary borides, MRuB2, MOsB2, a |
82 |
Temperature Measurement of gas flame, a |
87 |
low, by Rh-Fe alloy with a SQUID |
57 |
in nuclear reactors, a |
132 |
platinum resistance thermometers |
2, 46, 178 |
Temperature Scale, 13.81K–273.15K, a |
178 |
Thermafilm® platinum resistance detectors |
2 |
Thermocouples, Pt:Pt–13%Rh, non-screened, a |
87 |
Thick Films, Pt-Ni-Pt, Ni diffusion into Pt, a |
129 |
oxide on Pt anode, reduction of, a |
130 |
platinum resistance detectors |
2 |
Thin Films, aromatic amines/Pt, a |
83 |
IrO2, a.c. response, a |
83 |
Pd/Ti tubes in condensers in oil refineries, a |
178 |
Pd, Ag/Ta wire, H2 absorption on, a |
173 |
Pt-Al2O3, solar absorption in, a |
173 |
PtCoO2 electrodes, a |
43 |
PdXO2 electrodes, a |
43 |
Pt-SiOx, solar absorption in, a |
173 |
Titanium, corrosion stability after Pd ion implantation, a |
129 |
Toluene, hydrogenation on Pt/Y zeolite and Pt/SiO2, a |
45 |
Tritium, electrolytic separation from D, a |
174 |
Turbines, gas, blade protection of |
94 |
Uranium, , photoreduction by Ru complexes, a |
84 |
Water, purification by Pt/C catalyst, a |
175 |
Water Gas Shift Reaction |
14, 85, 174 |