Acetylene, chemisorption on Pt(100) and Pt(111), a | 87 |
oxidation over RuCl2(PPh3)3, a | 92 |
Air Flow Meter | 117 |
Alcohol, ethyl, oxidation on single crystal Pt electrodes, a | 135 |
synthesis from CO by Ru catalyst, a | 44 |
methyl, electro-oxidation on Pt catalysts, a | 88 |
electro-oxidation by Pt/C-fibre paper catalyst, a | 41 |
homologation to ethyl over Ru-Co, a | 139 |
oxidation on single crystal Pt electrodes, a | 135 |
synthesis, a | 42, 44, 138 |
primary aliphatic, dehydrogenation over Pt/anatase, a | 89 |
2-propanol, dehydrogenation by RhCl(PPh3)3, a | 89 |
Aldehydes, amination, a | 138 |
Alkanes, reactions over platinum metals, a | 42, 89 |
Alkynes, hydrogenation over collodial, Pd, Pt, a | 138 |
Amination of aldehydes, a | 138 |
Amines, tertiary polycyclic, reaction with RuO4 a | 88 |
Ammonia conversion to amines by Pd acetylacetonate, a | 43 |
decomposition on Pt(III) and Pt(557), a | 38 |
oxidation over platinum metals, a | 28, 137 |
synthesis over Os and Ru, a | 43, 91, 186 |
Analysis, microsampling in flame atomic adsorption, a | 41 |
Arthritis drug, Os carbohydrate polymers, a | 140 |
Banks, Sir Joseph, history | 34 |
Benzene, hydrogenation over platinum metals, a | 42, 89, 91, 137, 138, 139 |
Book Review, Platinum Group Elements: Mineralogy, Geology, Recovery | 57 |
Booklet, Homogeneous Catalysts of the Platinum Metals | 15 |
Bromine, photoproduction by Pt-TiO2, a | 40 |
Bursting Dises | 13 |
Bushveld Igneous Complex | 57 |
Butene, reactions over platinum metals, a | 43, 92 |
Cancer, anti-tumour drugs | 33, 65, 88, 92, 140 |
Capacitors, MOS, to detect H2, CH4, C4H10, CO, a | 89 |
Carbon Oxides, CO, adsorption on Pt, Rh, a | 90, 138, 184 |
co-adsorption with H2 and D2 on Ru(001), a | 135 |
conversion to ethylene and propylene over Rh/SiO2, a | 138 |
co-polymerisation with olefins by Pd(II) complexes, a | 187 |
detector | 89 |
diesel emission control | 50 |
electro-oxidation with Rh-/ and Ir-porphyrin/C catalysts, a | 88 |
hydrogenation over platinum metals, a | 44, 186 |
interaction with N2 over Ru/Al2O3, Ru/MgO, Ru/SiO2, a | 138 |
interaction with NO and O2 on Pt-Re, a | 134 |
interaction with O2 on thin Pd islands, a | 134 |
oxidation over platinum metals, a | 90, 137 |
CO2, hydrogenation over Rh/support catalysts, a | 186 |
Carbonylation, methyl acetate over RhCl3 hydrate, a | 91 |
Carboxylic Acids, production, a | 92 |
Catalysis, homogeneous, booklet | 15 |
Catalysts, three-way, a | 185 |
Iridium Complexes, for water gas shift reaction, a | 91 |
Cp2W2Ir2(CO)12, CpWIr3(CO)11, synthesis, hydrogenolysis of-n-butene, a | 92 |
Osmium, powder for NH3 synthesis by cycling, a | 186 |
Os6(CO)12/Al2O3, SiO2, TiO2, a | 90 |
OS6(CO)18/Al2O3, SiO2, TiO2, a | 90 |
Palladium black, methanol synthesis, metal-support effect, a | 42 |
colloidal, hexyne hydrogenation, a | 138 |
for natural products’ syntheses, a | 91 |
H2-permeated membrane, for ethylene hydrogenation, a | 90 |
permanent, for petrochemistry, a | 138 |
templates for allylic alkylation, a | 90 |
Palladium Alloys, Pd-Ru, Pd-Sm membranes, for 1,3-pentadiene conversion, a | 186 |
Palladium Complexes, Pd acetylacetonate + tributyl phosphite for amine synthesis, a | 43 |
[Pd(CH3CN)4](BF4)2.nPPh2, CO co-polymerisation with olefins, a | 187 |
[Pd(OC6H4CH=NC6H5)2] for isoprene reactions, a | 91 |
[(PPh)2Pd5]n, for hydrocarbon hydrogenation, a | 187 |
Ph3P)2Pd2, (Ph3P)2Pd2(OAc)2, a | 187 |
K[Pd(C6H5SO2)2(H2O)Cl] for isoprene reactions, a | 91 |
Pd/Al2O3, CO adsorption spectra, metal-support effect, a | 42 |
for methanol synthesis, metal-support effect, a | 42 |
for phenol amination with NH3, a | 90 |
Pd/α -Al2O3/honeycomb, a | 90 |
Pd/γ -Al2O3, for benzene hydrogenation, a | 42, 138 |
solubility in HCl, a | 138 |
Pd-Au/Al2O3, for phenol arnination, a | 90 |
Pd-Pt-Rh/Al2O3, three-way, Ce promoted, a | 185 |
Pd-Pt/γ -Al2O3, for n-pentane isomerisation, a | 42 |
Pd/Al2O3 + A, for benzene hydrogenation, a | 42 |
Pd/Al2O3-SiO2, for benzene hydrogenation, a | 42 |
CO adsorption spectra, metal support effect, a | 42 |
Pd/LaO3, -/MgO, for methanol synthesis, metal-support effect, a | 42 |
Pd/Ni foam, for H2 combustion, a | 186 |
Pd/SiO2, CO adsorption spectra, metal support effect, a | 42 |
for CO hydrogenation, a | 138 |
for methanol synthesis, metal-support interaction, a | 42 |
Pd/TiO2, CO adsorption spectra, metal-support effect, a | 42 |
for benzene hydrogenation, a | 89 |
for methanol synthesis, metal-support effect, a | 42 |
PdCl2.CuCl2/zeolite, for olefin oxidation, a | 90 |
Pd/HY zeolite, for CO hydrogenation, a | 138 |
Pd/NaY zeolite, for CO hydrogenation, a | 138 |
Pd/ZnO, for methanol synthesis, metal-support effect, a | 42 |
Pd/ZrO2, for methanol synthesis, metal-support effect, a | 42 |
Platinum, colloidal, for hexyne hydrogenation, a | 138 |
colloidal, and , for H2 photoproduction, a | 185 |
electrocatalysts in fuel cells | 118 |
for oil refining | 19 |
, for H2 photoproduction, a | 89 |
(Pt/Fe3+, Fe2+//Ce4+, Ce3+/n-BaTiO3) in solar cell, a | 185 |
Pt/RuO2/Cr ions/colloidal TiO2, for H2O photocatalysis, a | 185 |
Pt/RuO2, TiO2, MV, for H2 photoproduction, a | 40 |
Platinum Alloys, recovery in NH3 oxidation | 28 |
Platinum Complexes, [Pt2H2(μ-H)(μ-dppm)2] [PF6] for water gas shift reaction, a | 91 |
[HPt(PEt3)3]+, a | 89 |
Pt/Al2O3, Cl modified, for oil refining | 19 |
effect of heat, atmosphere on, a | 42 |
for hydrocarbon conversion, a | 185 |
S poisoning, a | 137 |
Pt/γ -Al2O3, CO adsorption on, a | 90 |
CO oxidation on, oscillations, a | 137 |
Pt-Re-F/Al2O3, for hydrocarbon conversion, a | 185 |
Pt/Al2O3 + Li, Pt concentration effects, a | 41 |
Pt-metal oxide/Al2O3, for NH3 oxidation, a | 137 |
Pt-metal-Si organic compounds/Al2O3, for n-heptane transformations, a | 185 |
Pt-Pd-Rh/Al2O3, three-way, Ce promoted, a | 185 |
Pt-Rh/Al2O3, reactions over, a | 137 |
Pt-Ru/Al2O3, microsampling, a | 41 |
Pt-Sn/Al2O3, for H2 adsorption, a | 90 |
Pt-Bi/γ -Al2O3, for n-pentane isomeristion, a | 42 |
Pt-Pd/γ -Al2O3, for n-pentane isomerisation, a | 42 |
Pt/anatase, for H2 production from alcohols, a | 89 |
Pt/CdS, RuO2, for H2 production, a | 187 |
Pt/C, for NO hydrogenation, a | 90 |
Pt/C-fibre paper, for CH3OH, HCOOH electro-oxidation, a | 41 |
Pt/Cu.Cr2O3, CO oxidation over, a | 137 |
Pt-Ru/SiO2, for Fischer-Tropsch reaction, a | 186 |
methanations over, a | 137 |
Pt/porous Teflon, D2-H2 exchange, a | 41 |
Pt/TiO2, for benzene hydrogenation, a | 89 |
photocatalytic activity, a | 136 |
Pt/K2CO3/TiO2, for water gas shift reaction, a | 186 |
Pt/n-TiO2 powder, for Br2, Cl2, I2 photoproduction, a | 40 |
Pt/Y-zeolite, CO adsorption on, a | 184 |
Pt-Re/zeolite, for coal liquefaction, a | 42 |
Platinum Metals, for coal liquefaction, a | 42 |
for diesel emissions control, a | 50 |
for one carbon molecules, conference | 174 |
poisoning by Hg,S,Pb, a | 42 |
Pt Metals + chloranylic acid complexes/support, a | 138 |
Rhodium Alloys, Rh-Pt gauzes, in NH3 oxidation | 28 |
Rhodium Complexes, for hydrogenation, a | 187 |
for carboxylic acid production, a | 92 |
for ester production, a | 91 |
for 3,4-epoxy but-l-ene hydrogenation, a | 139 |
for water gas shift reaction, a | 91 |
RhCl3 hydrate, for carbonylation, a | 91 |
RhCl(PPh3)3, polymer bound, for olefin hydrogenation and isomerisation, a | 43 |
RhCl(PPh3)3, for dehydrogenation, a | 89 |
RhH(CO)(PPh3)3, for ester synthesis, a | 91 |
Rh phosphine, for hydroformylation, a | 91 |
[Rh{(i-Pr)2P(CH2)n P(i-Pr)2}(NBD)] ClO4, for hydrogenation, a | 139 |
tris(2,2′-bipyridine)Rh(III), for water photoreduction, a | 136 |
[Rh(X)(CO)Cl2]-bpyPdCl2, -bpyPtCl2, -bpyRh, for hydrogenation, a | 43 |
Rh/Al2O3, for CO hydrogenation, a | 156 |
Rh-Pd-Pt/Al2O3, three-way, Ce promoted, a | 185 |
RhPt/Al2O3, reactions over, a | 137 |
Rh/AlPO4-SiO2, for cyclohexene hydrogenalion, a | 186 |
Rh/SiO2, for CO conversions, a | 138 |
HRh(CO)(PPh3)3/SiO2, PPh3, for propene hydroformylation, a | 43 |
Ph/support, for C oxides hydrogenation, a | 186 |
Rh/TiO2, adsorption of H2 and CO on, a | 138 |
Rh/ZrO2, for CO hydrogenation, a | 186 |
Ruthenium, for NH3 synthesis, a | 43 |
for benzene hydrogenation, a | 139 |
for CO hydrogenation, a | 44 |
RuO4, , for oxidation, a | 139 |
RuO4, for oxidations, a | 43 |
Ru oxides, for O2 evolution, a | 40 |
poisoned, for benzene hydrogenation, a | 91 |
powder, for NH3 synthesis, a | 91 |
skeletal, a | 139 |
RuO2/CdS, for H2 photoproduction, a | 40, 136 |
RuO2/Pt/Cr ions/colloidal TiO2, for H2O photocatalysis, a | 185 |
RuO2/Pt/TiO2, MV, for H2O photocatalysis, a | 40 |
RuO2/colloidal TiO2, for H2O photocatalysis, a | 136 |
Ruthenium Alloys, Ru-Co, for homologation, a | 139 |
Ru-Co, properties and structure, a | 139 |
Ru-Fe, properties and structure, a | 139 |
Ru-Ni, properties and structure, a | 139 |
Ruthenium Complexes, for carboxylic acid production from syngas, a | 92 |
, for H2O photoreduction, a | 136 |
trans , for H2O photoreduction, a | 40 |
, for H2 photoproduction, a | 89 |
RuCl2(PPh3)3, for acetylene oxidation, a | 92 |
RuCl2(PPh3)3, for hydrogenolysis, a | 187 |
[Ru(PPh3)2(SnCl3)Cl], for hydrogenation, a | 44 |
[HRu3(CO)11]−, reactions over, a | 187 |
Ru/Al2O3, CO and N2 isotopic equilibration, a | 138 |
Ru-Pt/Al2O3, microsampling, a | 41 |
Ru/γ Al2O3 + Cl−, for NH3 synthesis, a | 43 |
Ru3(CO)12/γ Al2O3, i.r. study of, a | 139 |
Ru/MgO, CO and N2 isotopic equilibration, a | 138 |
Ru3(CO)12/MgO, i.r. study of, a | 139 |
Ru/SiO2, CO and N2 isotopic equilibration, a | 138 |
for CO hydrogenation, a | 186 |
Ru-Pt/SiO2, for Fischer-Tropsch reaction, a | 186 |
for methanation, a | 137 |
Ru/SiO2 + Cl−, for NH3 synthesis, a | 43 |
Ru(CO)12/SiO2, i.r. study of, a | 139 |
Ru(CO)12/Al2O3, SiO2, TiO2, a | 90 |
Ru3(CO)12/ZnO, i.r. study of, a | 139 |
Charpy, Georges, history | 175 |
Chemisorption, acetylene on Pt(100), Pt(111), a | 87 |
Children, John George, history | 175 |
Chlorine, effect on catalysts, a | 43 |
production over platinum metals, a | 40, 136 |
Coal, liquefaction, a | 42 |
Conference, Catalysis, Bruges, 1982 | 174 |
Fuel Cells, Montreal, 1982 | 118 |
NOx Emission Control, Maastricht, 1982 | 104 |
Corrosion, of platinum black, a | 184 |
resistance, Pd-steel alloys, a | 40 |
resistant polypyrrole films/Pt-Ta, anodes, a | 88 |
Cr-Ru alloy in H2SO4, a | 40 |
Creep, high temperature of Pt alloys, a | 38 |
Cyclohexene, a | 91, 186 |
Dehydrogenations, over platinum metals, a | 41, 89 |
Detector, H2, using Schottky diodes, a | 187 |
MOS capacitors, for H2, CH4, C4H10, CO, a | 89 |
Deuterium, a | 41, 135 |
Diencs, hydrogenation by [Ru(PPh3)2(SnCl3)Cl], a | 44 |
Diesel Fuel, emission control | 50 |
Diodes, Pd-thin-SiO2-Si, a | 92 |
Pd-TiO2, vapour sensitive, a | 134 |
Pt killed, compared to Au, a | 140 |
Editorial, twenty-fifth anniversary issue | 2 |
Electrical Contacts, palladium plated | 158 |
Pd, sliding, a | 44 |
Au/Pd, sliding, a | 44 |
Pd alloys, review, a | 106 |
Pt silicide, on n-Si, p-Si, a | 44 |
Pt-Si/Si, Schottky contacts, a | 140 |
Electrodeposition, Pd | 158 |
Pd-Ni alloy, a | 41 |
Pd-Sn, catalysts | 58 |
Pt on Sn oxide, Sb doped films, a | 41 |
precious metals, review, 1966 to 1982, a | 137 |
Rh, a | 41 |
Electrodes, anode, Ru-Ir + noble metal coated/Ti, for Ni electrowinning, a | 135 |
anode, Ru/Ti, kinetics in chloride solution, a | 136 |
cathode, Ir-W coated thermionic | 167 |
cathode, Os-Ru coated, thermionic | 167 |
cathode, W-Os coated, thermionic | 32, 167 |
Ir-porphyrin/C for CO electro-oxidation, a | 88 |
Nafion/Pt containing , a | 39 |
Pd, PdO2 coloured films on, a | 40 |
Pd-H | 20 |
Pd-Ag-O-Cs, photocathode, a | 40 |
Pt, laser photoeffects on, a | 89 |
Pt, platinised, SO2 adsorption, a | 135 |
Pt, reduced, a | 135 |
Pt, rotating, anodic oxidation of H2O2, a | 88 |
Pt, single crystal, oxidation kinetics on, a | 135 |
Pt, surface oxide reduction, a | 185 |
Pt/C, in fuel cells, a | 137 |
PtO, activation with thionyl chloride, a | 185 |
Pt + Pb, for methanol oxidation, a | 88 |
Pt + Re, for methanol oxidation, a | 88 |
Pt + Ru, for methanol oxidation, a | 88 |
Pt-polypyrrole-Ta photoanodes, a | 88 |
Pt + Sn, for methanol oxidation, a | 88 |
Rh-porphyrins/C for CO electro-oxidation, a | 88 |
Ru, oxidised, cycled Cl2 and O2 evolution, a | 136 |
RuO2, activation with thionyl chloride, a | 185 |
RuS2, photoreaction for O2 production, a | 136 |
Electrolytes, Pd complexes for electroplating electrical contacts | 158 |
Electronic Connectors, palladium based, review | 106 |
Emission Control, car exhaust catalysts for, a | 185 |
diesel engines | 50 |
Energy, solar, conversion and storage, a | 40 |
Engines, catalytic | 105 |
petrol, air flow meter for | 117 |
Esters, production, a | 91 |
Ethylene, reactions over platinum metals, a | 90, 138, 187 |
Ethylene Glycol, synthesis, a | 144 |
Fatty Acids, oxidation by RuO4 and Ru oxyanions, a | 139 |
Filters, catalytic, for diesel emission control | 50 |
Fire Extinguisher, using bursting disc | 13 |
Fischer-Tropsch reaction, a | 138, 186 |
Formaldehyde, oxidation on Pt electrodes, a | 135 |
Formic Acid, electro-oxidation by Pt/C-fibre paper catalyst, a | 41 |
Fuel Cells, a | 147 |
Pt electrocatalysts, conference | 118 |
for space shuttle | 105 |
Furnaces, Pt-wound, electrical resistance, history | 175 |
Gases, detection by Pd-TiO2 diode, a | 134 |
detectors, a | 89, 189 |
George III, history | 34 |
Glass, industry, dispersion strengthened Au-Pt | 98 |
metallic, amorphous Pd-B, a | 134 |
Pd80Si20, with B and Zr additions, a | 39 |
Heptane, Transformation on Pt + metal Si organic compounds/Al2O3, a | 185 |
Heraeus, W. C., history | 175 |
History, Kurnakov, Russian Platinum Industry | 129 |
melting platinum, first time | 79 |
platinum gift to George III | 34 |
platinum still | 183 |
platinum-wound electrical resistance furnace | 175 |
review, 1957–1982, for platinum metals | 3 |
Hydrocarbons, C6-conversion over Pt/Al2O3, a | 185 |
oxidation, Pt/Al2O3 effect of heat, a | 42 |
unsaturated, hydrogenation by [(PPh)2Pd5]n, a | 187 |
Hydrocracking, during coal liquefaction, a | 42 |
Hydrodealkylation over RhPt/Al2O3, a | 137 |
Hydroformylation over platinum metals, a | 43, 91, 187 |
Hydrogen, adsorption over platinum metals, a | 90, 138 |
co-adsorption with D2 and CO on Ru(001), a | 135 |
combustion, by catalytic burner, a | 186 |
detectors, a | 89, 187 |
diffusion in Pd alloys, a | 184 |
D2-H2 exchange over Pt/porous Teflon, a | 41 |
for NH3 synthesis, a | 43, 186 |
for hydrocarbon conversion over Pt/Al2O3, a | 185 |
in Pd and Pd alloys | 20, 70, 87, 121 |
isotope permeability through Pd-Ag membrane, a | 87 |
permeated in Pd catalytic membrane, a | 90 |
photoproduction from alcohols, a | 40, 89, 136, 185 |
production by Pt/CdS, with RuO2, a | 187 |
Hydrogenation, alkynes over colloidal Pd, Pt, a | 138 |
asymmetric, by Rh complexes, a | 187 |
benzene, over platinum metals, a | 42, 89, 137, 138, 139 |
by [Rh(X)(CO)Cl2]-bpy Y, a | 43 |
by [HRu3(CO)11]−, a | 187 |
CO, over platinum metals, a | 44, 138, 186 |
carbonyl compounds by Rh(I) complexes, a | 139 |
coal oil from coal, a | 42 |
cyclohexene, over Rh/AlPO4-SiO2, a | 186 |
3,4-epoxybut-1-ene by cationic Rh complexes, a | 139 |
ethylene over H permeated Pd membrane, a | 90 |
NO over Pt/C, a | 90 |
olefins, by RhCl(PPh3)3, a | 43 |
Hydrogenolysis over platinum metals, a | 92, 137, 187 |
Hydrogen Peroxide, anodic oxidation, a | 88 |
Iodine, photoproduction on Pt-TiO2 powder, a | 40 |
Iridium, Annual Surveys for 1979, 1980, a | 135 |
Iridium, compounds, H(NblrO), specific heat, a | 134 |
LaIrSi, NdIrSi, characteristies, a | 134 |
fluorosulphates, a | 88 |
Iridium Alloys, Iridium-Tungsten cathodes | 167 |
Iridium Complexes, [IrCl6]2−, a | 89 |
Iridium Oxide, IrO2 single crystals, a | 135 |
Isomerisation over platinum metals, a | 42, 43 |
Isoprene, a | 43, 91 |
Johnson Matthey, technology exhibition | 105 |
Kurnakov, N. S., history | 129 |
Lavoisier, first melting of Pt, using O2 | 79 |
Lead poisoning of platinum metal catalysts, a | 42 |
Le Chatelier, history | 175 |
Magnetism, H2Os10C(CO)24, paramagnetism in, a | 184 |
VPd3, NbPd3 properties, a | 134 |
LaIrSi, LaRhSi, NdIrSi, properties, a | 134 |
Medical, anti-arthritis drug, a | 140 |
anti-tumour drugs | 33, 65, 88, 92, 140 |
Mercury poisoning of platinum metal catalysts, a | 42 |
Merensky Reef, mineralogy, book review | 57 |
Methanation over Pt-Ru/SiO2, a | 137 |
Methane, detector, a | 89 |
Methyl Acetate, carbonylation over RhCl3 hydrate, a | 91 |
Mineralogy of platinum metals, book review | 57 |
Nickel, electrowinning, electrodes for, a | 135 |
Nitric Acid, production | 28 |
Nitrogen, for NH3 synthesis, a | 43, 186 |
reaction over Ru/Al2O3, Ru/MgO, Ru/SiO2, a | 138 |
Nitrogen Oxides, emission control, conference | 104 |
NO, hydrogenation over Pt/C, a | 90 |
reaction with CO and O2 on Pt-Re, a | 134 |
Oil, refining over modified Pt/Al2O3 | 19 |
Olefins, co-polymerisation with CO, a | 187 |
C2-C4, oxidation by Pd2.CuCl2/zeolite, a | 90 |
hydrogenation by platinum metal complexes, a | 43, 44 |
Osmium compounds, cluster, 1979, 1980 surveys, a | 135 |
Osmium Alloys, Osmium-Tungsten cathodes | 32, 167 |
Osmium Complexes, anti-arthritis drug, a | 140 |
osmium carbonyl cluster, a | 135 |
Au-Os complexes, a | 135 |
H2Os10C(CO)24, paramagnetism in, a | 184 |
Oxalic Acid, photo-oxidation, a | 39 |
Oxidation over platinum metals, a | 43, 88, 89, 90, 137, 139 |
Oxygen, electroreduction in H3PO4 on reduced Pt, a | 135 |
evolution on platinum electrodes, a | 40, 88, 92, 136 |
for first melting of platinum | 79 |
photoproduction from H2O, H2SO4, a | 89, 136, 185 |
reaction with CO on platinum metals, a | 134 |
Palladium, adsorption of CO and O2 on, a | 134 |
compounds, NbPd3, VPd3, magnetic properties, a | 134 |
electrical contacts | 44, 106, 158 |
electronic connectors | 106 |
hydrogen in, properties | 20, 70, 121 |
stress-rupture at high temperatures | 16 |
Palladium Alloys, Palladium-Boron, amorphous, a | 134 |
Palladium-Copper-Silicon, amorphous, H2 solubility in, a | 184 |
Palladium-Gold, catchment gauzes | 28 |
Palladium-Gold, low temperature alloying, a | 134 |
Palladium-Gold-Nickel, electrodeposits, wear, a | 184 |
Palladium-Hydrogen, properties | 20, 70, 121 |
Palladium-Iron, martensites, phase diagram, a | 38 |
Palladium-Iron, thermoelectric power, a | 87 |
Palladium-Manganese, H2 in, thermodynamics of, a | 87 |
Pd2MnSn, cold working, magnetisation, a | 87 |
Palladium-Nickel, electrodeposited coatings, a | 41 |
Palladium-Nickel-Phosphorus, amorphous, H2 solubility in, a | 184 |
Palladium-Platinum particles, coarsening, a | 87 |
Palladium-Platinum, H2 saturated, properties, a | 184 |
Palladium-Silicon, phase diagram, a | 39 |
Palladium-Silver, for electronic connectors | 106 |
Palladium-Silver, membranes, a | 87 |
Palladium-Steel, corrosion resistance, a | 40 |
Palladium-Titanium, H2 diffusivity in, a | 184 |
Palladium-Vanadium, H2 diffusivity in, a | 184 |
Palladium Complexes, Pd(O)-Hg salts, a | 39 |
Pd-Pt mixed, the first, with dppm, a | 88 |
Palladium Silicides, a | 39, 184 |
Paraffins, dehydrogenation, over Pt/Al2O3, a | 41 |
1,3-pentadiene, conversion over membrane catalysts, a | 186 |
Pepys, William Hasledine, history | 34 |
Petroleum, from coal, a | 42 |
Petroleum Reforming, Pt, Pd catalysts for | 138 |
Phase Diagrams, for Pt and Pd alloys, a | 38, 39, 135 |
Phenol, amination with NH3 over Pd/Al2O3 a | 90 |
Photocatalysis, a | 40, 89, 136, 185 |
Plastics, printing on | 58 |
Plating, electroless, by Pd-Sn catalysts | 58 |
electroplating, Pd | 158 |
Pt, Pd, Rh, Ir, Ru, a | 137 |
Platinum, black, corrosion in, a | 184 |
compounds, R(NbPtO), a | 134 |
drugs, anti-cancer | 33, 88, 92, 140 |
electrical contacts, a | 44, 140 |
first melting by Lavoisier | 79 |
ions implanted in MgO, radiation damage, a | 38 |
Pt(111) and Pt(100), acetylene chemisorption, a | 87 |
Pt(111) and Pt(557), NH3 decomposition on, a | 38 |
Pt(110), SO2 adsorption on, a | 38 |
stress-rupture at high temperatures | 16 |
Platinum Alloys, Platinum-Europium, phase diagram, a | 38 |
Platinum-Gold, dispersion strengthened | 98 |
phase diagram, a | 38 |
Platinum-Iridium, plastic deformation in, a | 38 |
Platinum-Palladium particles, coarsening, a | 87 |
H2 saturated, properties, a | 184 |
plastic deformation, a | 38 |
Platinum-Rhenium, reaction of CO with O2 and NO, a | 134 |
Platinum-Rhodium, plastic deformation, a | 38 |
Platinum-Ruthenium, plastic deformation, a | 38 |
Platinum-Enriched Superalloys | 146 |
Platinum Complexes, σ-aryl Pt(II), a | 39 |
bis(cis -dichloro(diamine)Pt(II)), a | 88 |
caffeine-8-ether-Pt, carcinostatic effect, a | 92 |
Pt(O)-Hg salts of Co, Mn, Re carbonyls, a | 39 |
Pt-Pd mixed, the first, with dppm, a | 88 |
Platinum Silicides, electrical contacts on n-Si, p-Si, a | 44 |
Platinum Metals, advances over last 25 years | 3 |
Platinum Metals Complexes, a | 39 |
Platinum Metals Alloys, in thermionic emitters | 167 |
Platinum Still, for H2SO4 production, history | 183 |
Pollution Control, NOx emissions | 50, 104, 185 |
Printed Circuits | 58 |
Propene, hydroformylation, a | 43 |
Propylene, reactions over platinum metals | 138, 187 |
Review, syntheses of natural products over Pd, a | 91 |
Pd in electronic connectors | 106 |
Rhodium, Annual Surveys for 1979, 1980, a | 135 |
compounds, LaRhSi, characteristics, a | 134 |
TmRh4B4, a | 39 |
drugs, anti-cancer | 65 |
electrolytic deposition, a | 41 |
Rh(110), SO2 adsorption on, a | 38 |
Rhodium Chlorides, spectra, a | 39 |
Rhodium Complexes, anti-tumour activity | 65 |
Russia, foundation of the platinum industry | 129 |
Rustenburg, platinum metals | 10 |
Ruthenium, co-adsorption of H2 and D2 with CO, a | 135 |
compounds, Ru carbonyl clusters, a | 135 |
Ruthenium Alloys, Ruthenium-Aluminium, phase transformations, a | 135 |
Ruthenium-Chromium, corrosion in H2SO4, a | 40 |
Ruthenium Complexes, for alkane oxidation, a | 89 |
[Ru(H2O)6]2−, a | 88 |
[HRu3(CO)11]−, in water gas shift reaction, a | 136 |
Ruthenium Oxides, electrocatalyst for O2 evolution, a | 40 |
RuO2, layers on quartz, resistivity and T.C.R., a | 87 |
RuO2 and RuO2:IrO2 single crystals, a | 135 |
RuO4, oxidation of tertiary polycyclic amines, a | 88 |
Schottky Diodes, in H2 detector, a | 187 |
SIROF’s, O2 evolution on, a | 92 |
Solar Cell, a | 185 |
Specific Heat, of H(NbIrO) and R(NbPtO), a | 134 |
Sulphur, catalyst poisoning by, a | 42, 137 |
Sulphur Dioxide, adsorption on Pt and Rh, a | 38, 135 |
Superalloys, platinum-enriched | 146 |
Superconductivity, LaRhSi, LaIrSi, NdIrSi, a | 134 |
TmRh4B4, a | 39 |
Syngas, for carboxylic acid production, a | 92 |
Temperature Measurement, a | 187 |
Thermionic Emitters, cathode materials | 167 |
Thermoelectric Power, of Pd and Pd-Fe alloys, a | 87 |
Thick Films, PdO2/Pd electrodes, coloured, a | 40 |
Pd-Ag-O-Cs photocathode, a | 40 |
RuO2 on quartz, resistivity and T.C.R., a | 87 |
Thin Films, Au-Ni-Pd electrodeposits, wear of, a | 184 |
Ir oxide, sputtered, properties, a | 92 |
PdSi, Pd2Si, thermal stability, a | 87 |
Pd2Si, epitaxial growth and stability, a | 184 |
Pt-Si/Si, a | 140 |
Sn oxide, Sn doped, platinised, a | 41 |
Turbines, gas, superalloys for | 146 |
Water Gas Shift Reaction, a | 136 |
by Ir and Rh complexes, a | 91 |
in car exhaust, a | 185 |
Pt, K2CO3/TiO2 catalyst for, a | 186 |
using [Pt2H(μ-H)(μ-dppm)2][PF6], a | 91 |
Wear, in Pd-Ni-Au electrodeposits, a | 184 |