Absorption, H2, protection of Ta, a | 139 |
i.r. by Pt films, a | 91 |
sound, by silicone RTV foam, a | 40 |
Acetone, electroreduction on Pt-Ni catalysts, a | 134 |
Acetaldehyde, photocatalytic production, a | 135 |
Acetylene, reactions over platinum metals, a | 134, 137 |
Adsorption, alcohols, ethers on Pt(III), a | 91 |
aliphatic hydrocarbons on Pd-Ru, a | 182 |
benzene over Pd/Al2O3, a | 45 |
CO, a | 93, 133 |
H2 on Pd/MgO, a | 136 |
NO2 on Pt(III), a | 91 |
O2 on Pd/MgO, a | 136 |
thin Pd film/Ni, properties, a | 93 |
Alcohols, adsorption, dehydrogenation, a | 91 |
ethyl, synthesis, a | 135, 138 |
methyl, dehydrogenation, a | 41 |
for olefin synthesis, a | 95 |
synthesis | 28, 185 |
oxidation | 111, 138 |
primary, synthesis from CO, H2, a | 137 |
2-propanol, dehydrogenation, a | 95 |
saturated long-chain, C2-C8, a | 95 |
synthesis from carbonyls, a | 46 |
unsaturated, synthesis from aldehydes, a | 46 |
Aldehydes, oxidation | 111, 185 |
reduction by Rh complex, a | 46 |
Alkanes | 45, 138 |
Alkenes, reduction, a | 94 |
Alkynes, catalytic oxidation over Ru complexes | 111 |
hydrogenation by Rh(I) hydride complexes, a | 186 |
Amides, production from aldehydes, a | 185 |
Amines, catalytic oxidation over Ru complexes | 111 |
Ammonia, catalyst gauze investigation | 19 |
Arenes, catalytic oxidation | 111, 137 |
Aromatisation, of hydrocarbons over Pt | 54 |
Arrhenius, Svante August, history | 31 |
Bacterial Growth, Pt electrodes for | 65 |
Benzene, adsorption on Pd/Al2O3, a | 45 |
Bollmann, Justus Erich, history | 81 |
Book Review, Modern Synthetic Methods, Transition Metals in Organic Synthesis | 125 |
NTIS Bibliography, Alloying Effects of Pd | 80 |
Bromine, photoproduction, a | 135 |
Butene, isomerisation, a | 136 |
Cancer, antitumour drug, a | 47 |
chemotherapy, 4th intl. symp. | 169 |
Carbon Oxides, CO, adsorption, a | 93, 133 |
detectors, a | 139, 184 |
for aldehyde reduction, a | 46 |
in Fischer-Tropsch, a | 95, 137, 185 |
hydrogenation, a | 137, 138, 185, 186 |
oxidation, a | 44, 45, 94 |
reaction with H2, methanol synthesis, a | 185 |
reactions with H2 over Group VIII, a | 95 |
reaction with H2 over RhCl3/TiO2, a | 95 |
CO, CO2 methanation over Ru carbonyls, a | 45 |
Casting, investment for Pt jewellery | 174 |
Catalysis, energy conversion conference | 28 |
heterogeneous, historical development | 31 |
homogeneous, for water photodissociation | 102 |
organic syntheses, 1980 survey, a | 45 |
intl. symp., additive, support effects | 16 |
Rideal Conference | 126 |
Catalysts, automotive exhaust, a | 185 |
Pb tolerant, SAE Conference | 78 |
thermally stable washcoat, promoter | 146 |
three-way | 44, 78, 146 |
for H2O photodissociation | 44, 94, 102, 135, 183 |
Iridium, oscillations during CO oxidation, a | 94 |
IrO2, for O2 photoproduction from H2O | 102 |
Iridium Complexes, for dehydrogenation, hydrogenation, a | 46 |
[Ir(bipy)3OH]2+/SiO2 gel, a | 45 |
Ir compounds/13-X faujasite zeolite, a | 136 |
Osmium, for alcohol oxidation, a | 138 |
OsO4, H2O2 decomposition, a | 138 |
Osmium Complexes, a | 45, 136 |
Palladium, membranes + Pt, for CHO dehydrogenation. a | 41 |
PdCl2 for furfural hydrogenation, a | 95 |
PdCl2-CuCl, for polyunsaturated ethers and esters oxidation, a | 136 |
Pd-Pt black/Pd-Ag-Au/Pd black, a | 42 |
Pd35Zr65, highly active for methanation, a | 136 |
oscillations during CO oxidation, a | 94 |
Palladium Alloys, H2 permeation, a | 136 |
Palladium Complexes, Pd(I) in co-ordination chemistry, review, a | 137 |
Pd(II), for arenes, olefin oxidation, review, a | 137 |
CH3COOH-dioxane-HNO3-Pd(II) for glycolic ester formation, a | 137 |
Pd halometal carbonyls, for phosgene production, a | 45 |
Pd(OAC)2/ArBr/K2CO3, for aldehyde oxidation, a | 185 |
[Pd2(Ph3P)4Cl2]B10Cl10, for hydrosilylation of acetylenic compounds, a | 137 |
Pd/Al2O3, for benzene hydrogenation, a | 45 |
PdS/Al2O3, for cyclopentadiene hydrogenation, a | 95 |
Pd/γ -Al2O3, for styrene hydrogenation, a | 185 |
Pd-Mn/γ -Al2O3, for styrene hydrogenation, a | 185 |
Pd-WO3/γ -Al2O3, for exhaust gas treatment, a | 185 |
Pd/C, size effect on H2-D2 exchange, a | 45 |
+HCOOH+sound, for olefin hydrogenation, a | 136 |
Pd/MgO, for H2, O2 adsorption, a | 136 |
Pd/SiO2, +promoters, CO/H2 reaction, a | 185 |
Pd/Na-zeolite, amminated, a | 185 |
Pd/support, for furfural hydrogenation, a | 95 |
Platinum, thermal durability | 146 |
black, corrosion in alkaline solution, a | 42 |
colloid, for H2 photoproduction from H2O | 102 |
for fuel cells, commercial | 107 |
oscillations during CO oxidation, a | 94 |
oxide, for H2 photoproduction from H2O | 102 |
photocatalysts | 42, 93, 102, 135, 183 |
platinised n-TiO2, for CO2, H2 production, a | 135 |
Pt-p-InP photocathode, a | 93 |
silicone RTV foam, sound absorption, a | 40 |
single crystals, for hydrocarbon conversions | 54 |
Platinum Alloys, Pt-Ir, for reforming, a | 44 |
Pt-Ni, electroreduction of acetone, a | 134 |
Pt-Re, for petroleum reforming, a | 44, 94 |
Platinum Complexes, for phosgene production, a | 45 |
[PtCl2(PPh3)2], for oxidative chlorination of n-pentane, a | 45 |
[Pt(Ph3P)3Cl]2B10Cl10, for hydrosilylation of acetylenic compounds, a | 137 |
Pt/Al2O3, for C3H8, CO oxidation, a | 44 |
for reforming, presulphurised, a | 94 |
Pt-Ir/Al2O3, for reforming, presulphurised, a | 94 |
Pt-Re/Al2O3, for reforming, presulphurised, a | 94 |
interactions, a | 44 |
Pt-V2O5/Al2O3, three-way, for NO-H2 reduction, a | 44 |
K2PtCl4/Al2O3, for methane chlorination, a | 95 |
Pt/γ -Al2O3, nature of support, a | 94 |
Pt-Re/γ -Al2O3+Li, for paraffin dehydrogenation, a | 94 |
Pt/AlPO4/γ -Al2O3, for alkene reduction, a | 94 |
Pt/Al2O3-Cl, for hydrocarbon reforming, a | 184 |
Pt/AlPO4-SiO2, for alkene reduction, a | 94 |
Pt/C, for halonitroaromatic hydrogenation | 72 |
Pt/MgO, nature of support, a | 94 |
Pt/Ni foam, in catalytic heaters, a | 44 |
Pt/RECaY zeolites, a | 44 |
Pt/SiO2, nature of support, a | 94 |
Pt/Na-zeolite, amminated, a | 185 |
Pt/TiO, properties, a | 44 |
Pt/TiO2, characteristics, a | 44, 93 |
H2 effect on conductivity, a | 40 |
in water gas shift reaction, a | 43, 135 |
particles, photopotential behaviour, a | 43 |
photocatalyst, a | 183 |
photocatalyst for acetic acid decomposition, a | 135 |
Pt/n-TiO, powder, for glucose reaction, a | 135 |
Pt/Ti2O3, properties, a | 44 |
Pt/support, for H2 photoproduction from H2O | 102 |
Pt-TEA/ZnTPPS4-ZnO, for H2 photoproduction, a | 135 |
Pt/WO3, for H2 absorption, a | 184 |
Platinum Metals, for organic syntheses, a | 95 |
hydrogen effect on, a | 182 |
Platinum Metal Complexes, for ethylene glycol production, a | 138 |
Platinum Metals/inert support, adatom effect, a | 185 |
Rhodium, Rh-p-InP photocathode, a | 93 |
Rhodium Complexes, for coal hydrogenation, a | 95 |
organorhodium, for organic reactions, a | 46 |
Rh6(CO)16-N,N,N′,N′- tetramethyl-1,3-propane-diamine, for aldehyde reduction, a | 46 |
Rh2(CO2)(PPh3)2(R2PO)2, thermally stable, a | 186 |
RhCl3(Bu2S)3, for silicone foam, a | 137 |
[Rh2Cl2(SnCl3)4]4−, a | 96 |
[C5(CH3)5] Rh[P(CH3)3]H2, a | 138 |
HRh(CO)2[P(C6H5)3]2, a | 138 |
trans-RhH(N2)L2,Rh2H2(μ -N2)L4, RhHLn, a | 186 |
Rh2(OAc)4-PPh3, for dehydrogenation, a | 95 |
Rh2(OCOCF3)4-P(OPh)3, for 2-propanol dehydrogenation, a | 95 |
Rh phosphine with Na+-hectorite, clay surface effects, a | 138 |
Rh/Al2O3, novel, for olefin synthesis, a | 95 |
for Fischer-Tropsch, a | 185 |
RhCl3/TiO2, CO reactivity, a | 95 |
Ruthenium, Ru+Mo+Na2O, for alcohol production, a | 137 |
Ru oxide/SrTiO3 photoanode, a | 94 |
RuO2 powder, for O2 photoproduction | 102 |
RuO2.xH2O, photocatalyst, a | 183 |
Ru-p-InP photocathode, a | 93 |
Ruthenium Complexes, for oxidations | 111 |
for H2, O2 photoproduction, a | 43, 94 |
fluorescence, a | 93 |
for O2 evolution, a | 94 |
for H2 photoproduction, a | 183 |
[(bpy)2(H2O)RuORu(H2O)(bpy)2]4+, for H2O oxidation, a | 46 |
Ru carbonyl, for ethanol production, a | 138 |
Ru carbonyl cluster, for CH4 production, a | 45 |
Ru3(CO)12, for cellulose hydrogenation, a | 46 |
for CO/H2 conversions, a | 186 |
H4Ru4(CO)12, for photohydrogenation, a | 184 |
[RuCl(bpy)2NO]2+, photoreactivity, a | 43 |
RuCl2(PPh3)3-HCOOH, for carbonyl reduction, a | 46 |
Ru/Al2O3, novel, for olefin synthesis, a | 95 |
with SiO2, for Fischer-Tropsch, a | 137 |
Al+[H3RuOs3(CO)12]−/Al2O3, a | 136 |
K4Ru2OCl10/Al2O3, for methane chlorination, a | 95 |
Ru/γ -Al2O3, for Fischer-Tropsch, a | 95, 137 |
RuO2/CdS, for H2 photoproduction from H2S, a | 184 |
Ru carbonyl cluster/oxide, for methanation, a | 45 |
Ru/support, for methanol synthesis, a | 185 |
Ru carbonyl-L/support, a | 138 |
RuO2/support, for O2 photoproduction | 102 |
electrode, pH effect, a | 43 |
Ru/TiO2, with SiO2, for Fischer-Tropsch, a | 137 |
Ru/V2O3, for Fischer-Tropsch, a | 185 |
Ru/Y-zeolite, CO hydrogenation, a | 137 |
Cathodic Protection, coatings on Ta, a | 139 |
platinised Ti electrodes | 2 |
Cells, photoelectrochemical, a | 42, 43, 93, 135, 185 |
Cellulose, hydrogenation by Ru3(CO)12, a | 46 |
Ceramics, coatings with Pt in gas turbines | 30 |
Chemisorption, catalyst characterisation, a | 44 |
Rideal Conference | 126 |
Chlorination, n-pentane by Pt complexes, a | 45 |
Chlorine, photoproduction, a | 135 |
Chloronitrobenzene, hydrogenation over Pt/C | 72 |
Chromium Alloys, Pd and Pt doped, corrosion, a | 93 |
Coal, liquids, hydrogenation, a | 95 |
Coatings, palladium, low H content, a | 43 |
Pd-Ni from ammoniacal electrolyte, a | 135 |
Pt ceramic, for gas turbine blades | 30 |
Pt on glass microspheres, a | 40 |
Pt on TZM and Fe10Cr, a | 184 |
Pt metals on Ta, a | 139 |
Cock, William John, history | 129 |
Colombia, platinum history | 81 |
Conference, Applications of Platinum Metals | 9 |
Catalysts for Energy Conversion | 28 |
Fuel Cell | 68 |
Platinum Co-ordination Complexes | 169 |
Metal-Support, Metal-Additive Effects in Catalysis | 16 |
preview, Platinum Group Metal Chemistry | 127 |
Rideal, Chemisorption and Catalysis | 126 |
Society of Automotive Engineers | 78 |
3rd Intl. Platinum Symposium | 80 |
Corrosion, properties, Cr doped with Pd, Pt, a | 93 |
Pd-Cu-Y alloys, a | 92 |
Pt black in alkaline solution, a | 42 |
protection, by platinised Ti electrodes | 2 |
by Pt coatings in gas turbines | 30 |
Crucibles, Au-Pt, ZGS, for oxidations | 156 |
Cyclisation, hydrocarbons over Pt | 54 |
Cyclopentadiene, hydrogenation over PdS/Al2O3, a | 95 |
Cyclopentene, production over PdS/Al2O3, a | 95 |
Decarbonylation, by organorhodium complexes, a | 46 |
Dehydrogenations, a | 41, 46, 91, 94, 95, 136 |
Detectors, CO, a | 139, 184 |
hydrogen, a | 8, 43, 44, 184 |
i.r. photo, a | 91 |
pH changes, a | 135 |
urea, IrO2 electrode, a | 135 |
Deuterium, H2-D2 exchange, a | 45 |
H,D,T separation by Pd alloy membrane, a | 136 |
D-T, effect on Pt coatings, a | 40 |
Diffusion, H2 | 18, 41, 91, 136, 157 |
Diodes, Pd in H2 detector, a | 44 |
Pd/a-Si:H, in H2 detector, a | 184 |
Schottky, a | 44, 182, 186 |
Electrical Contacts, in p.c. inlays, a | 139 |
Pd-Ag, in dual-in-line, a | 96 |
Pt silicide, a | 96 |
PtSi-Si Schottky barrier, a | 46 |
Electrochemistry, a | 41, 93, 134, 183 |
Electrodeposition, Pd | 10, 43, 135, 184 |
Pt, a | 135, 184 |
Rh, a | 135 |
Ru, a | 135 |
platinum metals, using cyanide solvents | 26 |
Electrodes, anodes, in fuel cell, a | 138 |
Ru, RuO2, a | 134 |
RuO2/Ti, hydrous, anhydrous, a | 42 |
Ru-Ti, oxidised, a | 42 |
surface oxides, a | 134 |
IrO2, for urea detector, a | 135 |
Ir silicide coated n-Si, for halide photoproduction, a | 135 |
LaNi5-type, Pd plated, a | 92 |
Pd-Pt black/Pd black/Pd-Ag-Au membrane, a | 42 |
Pd-Ag alloy, for H2 production, a | 42 |
photoanode, Cr-doped SrTiO3+Ru oxide film, a | 94 |
Pt-polypyrrole/n-Si, behaviour, a | 42 |
photocathodes, P-InP+Pt,Rh,Ru, a | 93 |
Pt, for ethylene, acetylene reduction, a | 134 |
for formic acid absorption, EMIRS, a | 183 |
black, gas diffusion fuel cell, a | 96 |
H2/Pt/HUO2PO4.H2O, a | 93 |
Pt-Pd, porous composite in H2 gas detector, a | 43 |
Pt PAFC, in alkaline fuel cells, a | 46 |
Pt thick film, bacterial measurement | 65 |
Pt/WC, in fuel cell, a | 138 |
platinised Ti, for cathodic protection | 2 |
Ti/PtOx,TiO2, characterisation, a | 42 |
behaviour, a | 43 |
RuO2-modified-n-Si(Ir), halide photoproduction, a | 135 |
n-Si(Ir), for halide photoproduction, a | 135 |
EMIRS, electrochemically modulated i.r. reflectance spectroscopy, a | 183 |
Emission Control, automotive exhaust catalysts | 78, 146 |
SAE Conference | 78 |
Energy Conversion, catalysts in, conference | 28 |
solar to chemical, a | 93 |
Esters, glycolic, production, a | 137 |
polyunsaturated, oxidation, a | 136 |
Ethers, adsorption, dehydrogenation on Pt(III), a | 91 |
catalytic oxidation | 111, 136 |
Ethylene, reactions, a | 45, 96, 134, 136, 137, 184 |
Ethylene Glycol, production from syngas, a | 138 |
Faraday, Michael, glass work | 175 |
Fire Extinguisher, heat activated foam, a | 137 |
Fischer-Tropsch | 28, 95, 137, 185 |
Fluorescence, tris(2,21-bipyridyl)Ru(II), a | 93 |
Formaldehyde, dehydrogenation over Pt, a | 41 |
Formic Acid, reactions, a | 41, 183 |
Fuel Cells, a | 46, 96, 138 |
commercial development | 107 |
SAE Conference, Detroit, 1983 | 78 |
U.S. National Seminar, 1982, California | 68 |
Furfural, hydrogenation over Pd catalysts, a | 94 |
Fusion Reactor, fuel purification, a | 136 |
Gas Turbines, Pt ceramic coating for | 30 |
Gauze, catalyst, loom woven | 155 |
Glass, frit + RuO2: thick film resistor, a | 47 |
improved production(HTG)using Pt | 66 |
optical, Faraday’s work, historical | 175 |
wettability on alloys | 128 |
Glasses, metallic, Pd40Ni40P20, a | 41 |
Zr-Pd hydrides, a | 92 |
Rh0.92− xBxSi0.08, structure, properties, a | 41 |
Haber, Fritz, history | 31 |
Halonitroaromatics, hydrogenation over Pt/C | 72 |
Heater, catalytic, Pt/Ni foam, H2 fuelled, a | 44 |
1-Hexene, hydrogenation, isomerisation, a | 138 |
History, heterogeneous catalysis | 31 |
J. E. Bollmann and F. A. Zea | 81 |
William John Cock | 129 |
Michael Faraday and optical glass | 175 |
Thomas Graham, H absorption by Pd | 159 |
Hydrocarbons, aliphatic, a | 45, 94, 134, 137, 138, 182 |
aromatic, reforming over Pt/Al2O3, a | 111, 137, 184 |
selective conversion over Pt single crystals | 54 |
synthesis by Group VIII catalysts, a | 95 |
Hydroformylation, over Rh complexes, a | 46, 138, 186 |
Hydrogen, absorption in Zr-Pd, a | 92 |
adsorption on Pd, a | 133 |
on Pd/MgO, a | 136 |
catalytic heater fuel, a | 44 |
conductivity on Pt/TiO2, a | 40 |
detectors | 8, 43, 44, 184 |
diffusion | 18, 41, 91, 136, 157 |
effects on catalysts, a | 182 |
embrittlement of Ta, a | 139 |
H2/CO, reactions, a | 95, 138, 185, 186 |
H2-D2 exchange reaction, Pd/C size effect, a | 45 |
isotope separation by Pd-Ag alloy membrane, a | 136 |
in Fischer-Tropsch | 28, 95, 137, 185 |
methane production using Ru carbonyl, a | 45 |
Pd-Pt-H, electrical resistivity, a | 133 |
permeability | 18, 41, 42, 136, 157 |
photoproduction, from aqueous glucose, a | 135 |
from H2S, by RuO2/CdS, a | 184 |
from water | 43, 93, 94, 102, 135, 183 |
production, using Pd-Ag, a | 42 |
in rechargeable cell, a | 42 |
purification | 157 |
recovery from waste gas | 18 |
sorption on Pd films, a | 91 |
by Pt/WO3, a | 184 |
Hydrogen Peroxide, decomposition by OsO4, a | 138 |
Hydrogenation, CO | 28, 95, 137, 185, 186 |
over Ir homogeneous catalysts, a | 46 |
Os, a | 45 |
Pd, a | 45, 95, 136, 185 |
Pt | 73 |
Rh, a | 95, 138, 185, 186 |
Ru, a | 46, 137, 185, 186 |
Hydrogenolysis, hydrocarbons over Pt | 55 |
Hydrosilylation, acetylenic compounds, a | 137 |
Iodine, photoproduction, a | 43, 135 |
Ion, implantation damage to Pt silicide, a | 40 |
Iridium, Annual Survey for 1981, a | 92 |
photoelectron capture in AgBr, a | 184 |
compounds, thermal stabilities, a | 41 |
thin film u.v. telescope mirrors | 108 |
Iridium Alloys, Iridium-Cobalt-Oxygen, spinels, a | 182 |
Iridium-Palladium-Phosphorus, amorphous, a | 134 |
Iridium-Platinum, surface tension, density, a | 91 |
Iridium+Thorium+0.3% Tungsten, a | 92 |
Iridium-Titanium, phase diagram | 169 |
ternary carbides, phase diagrams, a | 182 |
Iridium Complexes, Annual Survey for 1981, a | 92 |
polypyridine, for photodissolution of H2O, a | 133 |
S8-and Se8Ir, a | 41 |
Iridium Oxide, epitaxial growth on TiO2, a | 41 |
films, blue sputtered, a | 133 |
Isomerisation over platinum metals | 46, 54, 138 |
Jewellery, platinum investment cast rings | 174 |
Ketones, reactions | 111, 186 |
Langmuir, Irving, history | 31 |
Magnetism, antiferromagnetic [Ru(NH3)5Cl]Cl2, a | 92 |
Fe-Pd permanent magnet alloys, a | 91 |
Matthey Rustenburg, solvent extraction plant | 110 |
Medical, bacterial growth measurement | 65 |
cancer chemotherapy, conference | 169 |
Pt complexes, antitumour activity, a | 47 |
Membranes, for H2 purification | 18, 157 |
Pd-Au-Ru-Ag, H permeability, a | 136 |
Pd+Pt, for CHO dehydrogenations, a | 41 |
Pd-Pt black/Pd-Ag-Au/Pd black, H2 permeable electrode, a | 42 |
Pd-Ag, Pd-Y alloys for H isotope separation, a | 136 |
Methanation, over platinum metals, a | 45, 136 |
Methane, reactions, a | 45, 95 |
Mineralogy, platinum symposium, Pretoria | 80 |
Naphthenes, reforming over Pt/Al2O3, a | 184 |
National Fuel Cell Seminar, 1982 | 68 |
Nickel Alloys, Ni-Pt, corrosion resistant | 9 |
Nitriles, hydrogenation by Rh(I) complexes, a | 186 |
Nitrogen Oxide, NO reduction on Pt-V2O5/Al2O3, a | 44 |
NO2, decomposition over Pt(III) to NO, a | 91 |
Nuclear Fuel, purification, a | 136 |
Olefins, hydrogenation by Pd/C+HCOOH+sound, a | 136 |
hydroformylation by Rh complex, a | 186 |
oxidation, a | 137 |
synthesis, a | 95, 137 |
Organic Synthesis, book review | 125 |
Osmium Alloys, Osmium-Tin, phase formation, a | 182 |
Osmium-Titanium, phase diagrams | 169 |
ternary carbides, phase diagrams, a | 182 |
Osmium Complexes, Os cluster carbonyls, a | 92, 134 |
polypyridine, for H2O photodissociation, a | 133 |
Osmium Tetroxide, reaction with NaBH4, a | 183 |
Ostwald, Wilhelm, history | 31 |
Oxidation, organic compounds over Ru catalysts | 111 |
over platinum metals | 44, 45, 46, 111, 133, 136, 137, 138 |
Rh-Pt alloys | 19 |
Oxygen, adsorption on Pd/MgO, a | 136 |
effect on interdiffusions in Pt-Cu-Cr, a | 40 |
evolution at electrodes, a | 42, 94, 134 |
photoproduction | 43, 102, 183 |
Palladium, adsorption of CO, H2 on, a | 133 |
alloying effects, NTIS Bibliography | 80 |
electrodeposition | 10, 43 |
in CO detectors, a | 139 |
membrane, Pt catalysed dehydrogenations, a | 41 |
package switch, dual-in-line, a | 96 |
phase diagrams, La2O3-PdO, a | 41 |
photographic properties, Pd-TiO2 layers, a | 133 |
thin films on Ni, properties, a | 93 |
Palladium Alloys, carbides, ternary, phase diagrams, a | 182 |
Palladium-Boron-Hydrogen, superconductivity, a | 182 |
Palladium-Copper-Hydrogen, thermodynamics, a | 92 |
Palladium-Copper-Sulphur, phase diagrams, a | 40 |
Palladium-Copper-Yttrium, phases, corrosion, a | 92 |
Palladium-Gold, CO adsorption, a | 93 |
diffusivity, solubility, a | 91 |
Palladium-Hydrogen-Zirconium, glasses, a | 92 |
Palladium-Iridium-Phosphorus, amorphous, a | 134 |
Palladium-Iron, heat treatment, phases, a | 91 |
proton irradiation damage in, a | 91 |
Palladium-Nickel, coatings, a | 135 |
Palladium-Nickel-Sulphur, phase diagrams, a | 40 |
Palladium-Phosphorus-Platinum Metals, anodic characteristics, a | 183 |
Palladium-Platinum, electrical resistivity, a | 133 |
Palladium-Ruthenium, aliphatic adsorption, a | 182 |
Palladium-Silver, diffusion membranes | 18 |
for H2 production, a | 42 |
H2 diffusivity, solubility in, a | 91 |
H isotope separation, a | 136 |
membranes for H purification | 157 |
package switch, dual-in-line, a | 96 |
printed circuit contacts, a | 139 |
Palladium-Silver-Gold, membrane electrodes, a | 42 |
Palladium-Silver-Gold-Ruthenium, membrane, a | 136 |
Palladium-Titanium, phase diagrams | 169 |
Palladium-Yttrium, for H isotope separation, a | 136 |
Palladium Complexes, Pd(I), a | 137 |
Palladium Hydride, α-, β -foils, H2 permeation, a | 42 |
Palladium Silicides, Pd2Si films, structure, a | 41 |
Pd2Si/Si, in Schottky diodes, a | 186 |
Pd2Si-Si epitaxiality, a | 182 |
Paraffins, reactions over platinum metals, a | 94, 184 |
Petroleum, reforming catalysts, a | 44 |
pH, detector, a | 135 |
Phase Diagrams, Groups IV, V, VI, -C-Pt,Pd,Os,Ir, a | 182 |
Pd-Cu-S, a | 40 |
Pd-Cu-Y, a | 92 |
Pd-Fe, a | 91 |
Pd-H-Zr, amorphous and crystalline glasses, a | 92 |
Pd-Ni-S, a | 40 |
La2O3-PdO, a | 41 |
Os-Sn, high pressure on, a | 182 |
platinum metals-Ti | 169 |
Phosgene, production from CO, Cl2, a | 45 |
Photocatalysis | 42, 43, 93, 94, 102, 135, 183, 184 |
Photography, Pd-TiO2 properties, a | 133 |
Plating, fused salt | 26 |
Pd, a | 43, 184 |
Pd from chelated bath | 10 |
Pd-Ni, a | 135 |
Pt, a | 184 |
platinum metals | 26, 135 |
Platinum, anisotropies after etching, a | 134 |
coatings, on glass microspheres, a | 40 |
components in HTG, improved glass making | 66 |
compounds, PtSb2, electrical properties, a | 182 |
dispersion strengthened | 9 |
electroreductions on, a | 134 |
glass making, history | 175 |
investment casting for jewellery | 174 |
Pt(III), adsorption of alcohols and ethers, a | 91 |
Pt(III), decomposition of NO2 over, a | 91 |
single crystals, for selective hydrocarbon catalyses | 54 |
thermocouple, international standard | 67 |
thin films for CO detectors, a | 184 |
Pt/Cu/Cr, O2 effects on interdiffusions, a | 40 |
wettability of glass | 128 |
Platinum Alloys, carbides | 109, 182 |
Platinum-Gold, ZGS | 156 |
Platinum-Gold-Silver, for p.c. contacts, a | 139 |
Platinum-Iridium, surface tension, density, a | 91 |
Platinum-Rhodium, oxidation study | 19 |
Platinum-Titanium, phase diagrams | 169 |
electrical resistivity after H absorption, a | 133 |
wettability of glass | 128 |
Platinum Complexes, anti-tumour drugs | 47, 169 |
Pt5(μ -CO)2(μ -SO2)3(CO)(PPh3)4, structure, a | 46 |
[(C6H12)PtCl2(C5H5N)], a | 92 |
π -olefin complexes, a | 92 |
Pt-SO2 clusters, general preparation, a | 46 |
Platinum Oxides, MxPt3O4, synthesis, a | 41 |
Ti/PtOx.TiO2 electrode, a | 42 |
Platinum Silicides, ion implantation damage, a | 40 |
ohmic contacts, a | 96 |
PtSi-Si, in Schottky diodes, a | 46, 47 |
Platinum Metals, intl. conf. | 9 |
electrodeposition from cyanide melts | 26 |
high oxidation state chemistry, a | 40 |
plating, a | 135 |
Pollution Control, Pb tolerant catalysts | 78 |
Pd-WO3/γ -Al2O3 catalyst, a | 185 |
Pt-Rh/γ -Al2O3, thermal durability | 146 |
Propane, oxidation by Pt/Al2O3, a | 44 |
Radiation, damage in Pd-Fe, a | 91 |
Refining, by solvent extraction | 110 |
Reforming, aromatics, naphthenes, paraffins, a | 184 |
operating changes, a | 94 |
petroleum naphtha fractions, a | 44 |
Resistors, RuO2 thick film, a | 47 |
Review, alloying effects of Pd, 1966–82, a | 40 |
chemistry of Ru, Os, Rh, Ir, Pd, Pt, a | 40 |
Ir homogeneous catalysts, a | 46 |
Ir, Rh, Co Annual Survey for 1981, a | 92 |
Pd complexes, a | 137 |
platinum metal catalysts, H effects, a | 182 |
surface chemistry of oxides, a | 134 |
transition metals in organic synthesis, 1980, a | 45 |
Rhodium, Annual Survey for 1981, a | 92 |
superconductivity | 170 |
Rhodium Alloys, Rhodium-Titanium, phase diagrams | 169 |
Rhodium Complexes, Annual Survey for 1981, a | 92 |
polypyridine, for H2O photodissolution, a | 133 |
S8- and Se8Rh, a | 41 |
Ruthenium, behaviour during Cu-Ru dissolution, a | 134 |
compound, [(Ru(III)(NH3)5Cl]Cl2, | |
antiferromagnetic, a | 92 |
Ru cluster carbonyls, a | 92 |
Mo55Ru45, amorphous films, a | 133 |
oxidation, a | 133 |
Ruthenium Alloys, Ruthenium-Cobalt-Oxygen, spinels, a | 182 |
Ruthenium-Palladium, adsorption of aliphatics, a | 182 |
Ruthenium-Titanium, phase diagrams | 169 |
Ruthenium Complexes, oxidation, a | 183 |
polypyridine, for H2O photodissolution, a | 133 |
polypyridyl Ru complexes, a | 183 |
Ruthenium Oxides, RuO2, modified surface, a | 47 |
RuO2, single crystal, a | 92 |
RuO2, thick film resistors, a | 47 |
RuO2/Ti electrode, a | 42 |
RuO2-PS powder, electrical resistivity, a | 133 |
RuO2,(Ru1−x, Irx)O2, epitaxial growth on TiO2, a | 41 |
RuxTi1−xO2, solid solution anodes, a | 42 |
Schottky Diodes, a | 44, 46, 47, 182, 186 |
Semiconductors, for water photodissociation | 102 |
PtSb2, electrical properties, a | 182 |
PtSi/Si, ohmic contacts to, a | 96 |
RuO2 modified oxide surface, a | 47 |
electrodes, RuO2/n-Si, RuO2-nSi(Ir), a | 135 |
Silicone Foam, RhCl3(Bu2S)3 catalyst for, a | 137 |
Silicone Rubber, sound absorption, a | 40 |
SIROF, blue, a | 133 |
SMSI, interactions | 16, 28, 44, 126 |
Solvent Extraction, new refinery | 110 |
Sound, +Pd/C+HCOOH for olefin hydrogenation, a | 136 |
absorption, in silicone rubber, a | 40 |
Standard, international, for thermocouples | 67 |
Steroids, catalytic oxidation | 111 |
Styrene, hydrogenation over Pd/γ -AlO3, Pd-Mn/γ -Al2O3, a | 185 |
Sulphur, effect on Pt catalysts, a | 94 |
Superconductivity, Pd-B-H, a | 182 |
Mo55Ru45 films, amorphous, a | 133 |
Rh | 170 |
Surface Science, Pt selectivity in hydrocarbon catalysis | 54 |
Switch, package, dual-in-line, Pd and Pd-Ag, a | 96 |
Telescopes, Ir coated mirrors | 108 |
Temperature Measurement, resistance thermometer leadout wires | 27 |
Thermafilm, temperature detectors | 27 |
Thermocouples, Pt, international standard | 67 |
Thermometers, platinum resistance, a | 139 |
Thick Film, electrodes, bacterial measurement | 65 |
layers, bright Pd, a | 184 |
resistors, RuO2 based, a | 47 |
Thin Films, Pd on Ni, adsorption, a | 93 |
Pd2Si, Pd-Si interface studies, a | 41 |
Pd on Si or Ti, a | 91 |
Pt, in CO detectors, a | 184 |
Pt, i.r. absorption on, a | 91 |
Pt/Cu/Cr, O2 effect on interdiffusions, a | 40 |
Titanium-Platinum Metal Alloys, phase diagrams | 169 |
Toluene, conversion over Pt/RECaY, a | 44 |
Transistors, MOS, for CO detection, a | 139 |
Tritium, isotope separation, a | 136 |
Urea, detector, a | 135 |
Voltammetry, cyclic, cyanide melts with Pt metals | 26 |
Water, oxidation by Ru complex+Ce(IV), a | 46 |
photochemical splitting | 43, 94, 102, 133, 135, 183 |
Water Gas Shift Reaction, a | 43, 135, 136 |
Wires, Pt plated Pd for thermometers | 27 |
Wollaston, William Hyde, history | 81, 175 |
Zea, Francisco Antonio, history | 81 |