Acetaldehyde, reaction over Rh/SiO2, a |
118 |
Acetic Acid, reaction over Rh/SiO2, a |
118 |
Aircraft, ozone control in, |
90 |
Alkenes, hydrogenation over homogeneous Rh(I) catalysts, a |
45 |
Ammonia, oxidation, Pt-Rh gauzes for, a |
84 |
ASME, standard for measuring catalyst surface area, a |
161 |
Beam Leads, Pt-Au-Ti, a |
45 |
Bergman, T. O., Pt discovery, role in, |
31 |
Bonding, tape automated, technology review, a |
116 |
Book Review, Platinum Group Metals—Ontario and the World |
57 |
Supply and Use Patterns for the Platinum Group Metals |
143 |
Brazing, molten fluoborates, Pt viscosimeter for, |
100 |
Carbon Oxides, CO, oxidation by three-way catalysts |
14, 43, 117 |
oxidation over Pt, a |
116 |
oxidation on Pt foil, a |
80 |
CO and CO2, chemisorption on Rh(III), a |
82 |
production from H2O and C by solar energy and TiO2-RuO2 catalyst, a |
83 |
Carbonylation over platinum metals, a |
44 |
Carboxylic Acids, hydrogenation to alcohols or lactones, a |
118 |
Catalysis, catalytic combustion engine |
126 |
Seventh International Congress on Catalysis, Tokyo |
135 |
Catalysts, ASME standard for measuring active surface area, a |
161 |
characterisation of industrial |
14 |
mononuclear metal complexes, review of, a |
161 |
noble metal, hydrogenation over, a |
162 |
three-way |
14, 43, 117 |
Iridium, with for homogeneous H2O photocatalysis, a |
115 |
Iridium Complexes, Ir4(CO)21–x(PPh3)x, for olefin hydrogenation, a |
118 |
Ir clusters/polymer, properties of, a |
161 |
Ir/SiO2, for 1,4-cyclohexanedione hydrogenation, a |
117 |
IrOx + RuOx/Y zeolite, for O2 production from H2O, a |
161 |
Palladium Complexes, for carbonylation and cyclisation, a |
118 |
PdCl2 with polybutadiene for olefin isomerisation, a |
162 |
(RCO2PdOO-t-Bu)4, for terminal olefin oxidation and ketonisation, a |
118 |
triarylphosphine-Pd, forming C-C bonds |
58, 146 |
Pd(acac)2-PPh3-Al(C2H5)3, for SO2 and butadiene reaction, a |
118 |
[PPh3PdX2]2, hydrogenation of, a |
162 |
trans -XHPd(PH3)2, structure and activation over, a |
84 |
trans -XYPd(PH3)2, structure and H2 activation over, a |
84 |
Pd/Al2O3, for methanation, a |
44 |
with/without Cr2O3 activator, for CH4 combustion, a |
116 |
Pd/C, for cyclobutanes transformations, a |
44 |
Pd/C/Cu, activity and structure of, a |
118 |
Pd/SiO2, for 1,4-cyclohexanedione hydrogenation, a |
117 |
for ethylene carbonylation, a |
44 |
Pd/zeolite, for diesel fuel hydroisomerisation, a |
117 |
for hydrocarbon cracking, a |
117 |
Pd/Y-zeolite, for n-heptane and n-hexane isomerisation, a |
84 |
Pd/zircon, for gas turbine combustor, a |
44 |
PdCl2/SnCl2, for electroless plating, a |
160 |
PdCl2(PhCN)2/SiO2 + Cr(II), for C2H6 hydrogenolysis, a |
117 |
Platinum, colloidal, for H2 photoproduction from H2O, a |
82, 159 |
dispersed, for H2 photoproduction from H2O, a |
42 |
foil for CO oxidation, a |
80 |
for CO oxidation, stability of, a |
116 |
for ozone control in aircraft |
90 |
for toxic fume purification |
12 |
with for H2O photolysis, a |
82 |
with RuO2 and TiO2 powders, for H2 photoproduction from carbohydrate, a |
159 |
Platinum Complex, for carbonylation and cyclisation, a |
118 |
Pt-Rh, gauzes for ammonia oxidation, a |
84 |
three way catalyst, a |
43 |
Pt-Ru, characterisation, a |
44 |
H2 chemisorption on, a |
117 |
Pt-Sn, for petroleum reforming |
103 |
Pt-Sn Oxide, for methanol electro-oxidation, a |
115 |
Pt/Al2O3, ASME standard for, a |
161 |
fibres for methane oxidation, kinetics and mechanism, a |
161 |
for chloroform hydrodechlorination, a |
83 |
for cycloalkane hydrogenolysis, a |
161 |
for ethylene oxidation, a |
83 |
for n-hexane aromatisation, a |
116 |
for H2 combustion, in flow reactor, a |
83 |
spheres for pollution control, a |
83 |
three-way, poisoning of, a |
117 |
with/without Cr2O3, for methane combustion, a |
116 |
Pt/γ -Al2O3, for n-heptane dehydrocyclisation, a |
84 |
Pt-Rh/Al2O3, three-way, poisoning of, a |
117 |
Pt-Ru/η -Al2O3, characterisation, a |
44 |
Pt-Ru/η -Al2O3, for H2 chemisorption, a |
117 |
Pt/C, for cyclobutanes transformations, a |
44 |
preparation, for hydrogenation, a |
43 |
Pt/honeycomb, for pollution control, a |
83 |
Pt/SiO2, for 1,4-cyclohexanedione hydrogenation, a |
117 |
Pt/zeolite, for transformation of hydrocarbons, a |
161 |
Pt/CaY zeolite, for hydrocarbon cracking, a |
117 |
Pt/NaY zeolite, decay of, a |
84 |
for methylcyclohexane dehydrogenation, a |
84 |
PtFe/SiO2, magnetic and i.r. studies, a |
117 |
PtSn/non-acidic support, n-hexane conversion, a |
161 |
Pt Metals, for catalytic combustion engine |
126 |
promoted, for pollution control, a |
83 |
Rhodium, for methanation, a |
84 |
Rhodium Complexes, for alkene hydrogenation, a |
45 |
for carbonylation and cyclisation, a |
118 |
for cyclopentanones synthesis, a |
85 |
for C2H4 hydroformylation, a |
45 |
alkylrhodium tetracarbonyl derivatives, for hydroformylation, a |
45 |
bipyridyls, for H2 photoproduction, a |
40 |
bis(μ-acetato)-bis(norbornadiene)-dirhodium(I), a |
44 |
RhCl(PPh3)3 for hydrazo-benzene hydrogenolysis, a |
85 |
phosphine Rh complexes for olefin hydrogenation, deactivation, a |
162 |
Rh/Al2O3, three-way, poisoning of, a |
117 |
Rh/C, for cyclobutane transformations, a |
44 |
for furan hydrogenolysis, a |
44 |
Rh-Pd/C, H2 adsorption on, a |
81 |
Rh-Pt/C, H2 adsorption on, a |
81 |
Rh/SiO2, for CH3CHO, CH3COOH and C2H5OH reactions, a |
118 |
for alkene hydrogenation, a |
45 |
Rh(CO)2Cl2/SiO2 + Cr(II), for ethane hydrogenolysis, a |
117 |
Ruthenium, RuO2, with and Pt, for H2O photolysis, a |
82 |
RuO2/TiO2/Pt powders, for H2 photoproduction from H2O, a |
159 |
RuO2-TiO2, for H2, CO, CO2 photoproduction from C and H2O, a |
83 |
Ruthenium Complexes, bipyridyls, for H2 photoproduction, a |
40, 41, 82, 115, 160 |
Ru carbonyl, for water gas shift reaction, a |
85 |
RuCl2(PPh3)3, for hydrazo-benzene hydrogenolysis, a |
85 |
trans -HRuCl(diop)2, for olefin hydrogenation, a |
118 |
H4Ru4(CO)8(PBu3)4, for carboxylic acids hydrogenation, a |
118 |
Ru-Pt/C, H2 adsorption on, a |
81 |
Ru clusters/polymer, properties of, a |
161 |
RuPt clusters/polymer, properties of, a |
161 |
Ru/SiO2, for 1,4-cyclohexanedione hydrogenation, a |
117 |
Ru/Y zeolites, for Fischer-Tropsch synthesis, a |
84 |
RuOx + IrOx/Y zeolite, for O2 production from H2O, a |
161 |
Cathodic Protection, Cr with Ir, Os, Ru, corrosion of, a |
163 |
Pd plating for Cr, Ti, stainless steel, a |
119 |
Pd implanted Ti in H2SO4, corrosion of, a |
119 |
Pt-Nb anodes |
56, 162 |
Chemisorption, over platinum metals, a |
117 |
Chlorine, evolution, Bi ruthenate electrodes for, a |
115 |
Chloroform, hydrodechlorination of, over Pt/Al2O3, a |
83 |
Chromium Alloys, Cr-Ir, Os, Pd, Pt, Ru, potential oscillations of, a |
114 |
Conference, Catalytic Aspects of Metal Phosphine Complexes |
144 |
Chemistry of Platinum Group Metals |
99 |
International Symposium on the Properties and Applications of Metal Hydrides, Colorado Springs |
102 |
Seventh International Congress on Catalysis, Tokyo |
135 |
Contacts, noble metal, sliding, wear in air |
134 |
Pt-Si, ohmic, laser processed, a |
163 |
Ru, electrodeposited |
25, 50 |
Ru and RuO2, a |
85 |
Copper, electrolytic refining by Cu-Pt electrodes, a |
159 |
Corrosion, Cr alloyed with Ir, Os, Ru, a |
163 |
Pt, in alkaline solution, a |
42 |
protection by Pt-Nb anodes |
56, 162 |
resistance, cathodic alloying for, a |
119 |
resistance of Pd implanted Ti, a |
119 |
resistance, Pd-Mo-steel, a |
115 |
Cycloalkanes, hydrogenolysis over Pt/Al2O3, a |
161 |
Cyclohexene, hydrogenation over Ir4(CO)21–x(PPh3)x, a |
118 |
Cyclopentanones, synthesis by Rh(I) complexes, a |
85 |
Diesel Fuel, hydroisomerisation over modified Pd/zeolite, a |
117 |
Dimers, Ru-Rh, intramolecular energy transfer in, a |
41 |
Diodes, Schottky, Pd-n-TiO2, for hydrogen detection, a |
119 |
PtSn-n-Si, a |
163 |
Electrodeposition of, Ir, Ir-Ru, Pd, Pt on Ti, a |
114 |
Pd on Ti, Cr, stainless steel, a |
119 |
Pt on Ti alloys, a |
83 |
Ru, as electrical contact material |
50 |
Electrodes, Cr, with Ir, Os, Ru, corrosion of, a |
163 |
Ir/, Pt/, Pd/, Ru/, Ru-Ir/Ti, for Ni electrowinning, a |
114 |
Pd thin film, H2 sorption at, a |
115 |
Pd-Mn, mixed oxides, characteristics, a |
160 |
Pd/H, overpotential effects in, a |
160 |
Pt black, corrosion in KOH, a |
42 |
Pt paste, for O2 sensors, a |
43 |
Pt, platinised, rotating disc for glucose oxidation, a |
82 |
Pt, poisoned, for O2 sensors, a |
160 |
Pt-Cu, for Cu refining, a |
159 |
Pt-Au, for formic acid, methanol oxidation, a |
42 |
Pt-Hg, optically transparent, characteristics, a |
82 |
Pt-Nb, for cathodic protection |
56, 162 |
Pt/C, for phosphoric acid fuel cell, a |
162 |
Pt/Zr, Y stabilised, in fuel cell, a |
162 |
RuO2, proton diffusion in, a |
115 |
RuO2, for water photolysis, a |
160 |
Bi ruthenates, for Cl2 evolution, a |
115 |
TiCo3O4(Ru), studies, a |
115 |
transition metal oxide, O2 evolution on, a |
159 |
Energy, storage, by electron transfer, a |
41 |
solar, by Rh isocyanides, a |
40 |
hydrogen, conference |
102 |
transfer, by Ru(II)-Rh(III) dimers, a |
41 |
Engines, catalytic combustion |
126 |
Ethyl Alcohol, reaction over Rh/SiO2, a |
118 |
Ethylene, adsorption on Pd, Pt, Ni films, a |
43 |
carbonylation over Pd/SiO2, a |
44 |
hydrogenation over Ir4(CO)21–x(PPh3)x, a |
118 |
oxidation over Pt/Al2O3, a |
83 |
Formic Acid, oxidation at Pt-Au electrodes, a |
42 |
Fuel Cells, Pt/C electrodes in phosphoric acid, a |
162 |
Pt electrodes, solid electrolyte, productivity, a |
162 |
Glass, Pd-Cu-Si, a |
40, 81 |
n-Heptane, dehydrocyclisation over Pt/γ-Al2O3, a |
84 |
isomerisation over Pd/zeolite, a |
84 |
n-Hexane, aromatisation over Pt/Al2O3, a |
116 |
conversion over Pt-Sn/support, a |
161 |
isomerisation over Pd/zeolite, a |
84 |
History, ancient Pt technology in South America |
147 |
discovery of Pt, Swedish contributions |
31 |
first Pt resistance thermometer |
104 |
powder metallurgy of Pt |
70 |
Hydrocarbons, cracking on Pt,Pd/zeolites, a |
117 |
transformations over Pt/zeolites, a |
161 |
Hydroformylation over platinum metals, a |
45 |
Hydrogen, adsorption on Pd black, a |
80 |
adsorption on Rh-Pd, Rh-Pt and Ru-Pt/C, a |
81 |
adsorption on Ru(110), a |
41 |
chemisorption on Pt-Ru, Pt-Ru/η -Al2O3, a |
117 |
combustion over Pt/Al2O3 in flow reactor, a |
83 |
photoproduction from carbohydrates by RuO2/TiO2/Pt, a |
159 |
photoproduction from water by platinum group metals, a |
40, 42, 82, 83, 159 |
Hydrogen Sulphide, adsorption on Ru(110), a |
41 |
Hydrogenation over platinum metals, a |
43, 44, 45, 117, 118, 162 |
Hydrogenolysis over platinum metals, a |
42, 44, 84, 85, 161 |
Iridium, epitaxy on (001)W and (001)Mo, a |
40 |
NO adsorption and decomposition on, a |
82 |
Iridium Complexes, substituted aryl phosphines |
95 |
Iridium Oxide, electrochromic films, a |
45, 160 |
Iridium Silicides, formation, a |
41 |
Iridium Alloys, Iridium-Tungsten, doped, welding of, a |
116 |
grain growth in, a |
41 |
Isomerisation over platinum metals, |
44, 84, 162 |
Medical, cis-palladium antitumour agents, a |
163 |
Methanol, electro-oxidation over Pt-Sn oxide, a |
115 |
oxidation at Pt-Au electrodes, a |
42 |
Methanation over platinum metals, a |
44, 84 |
Methane, combustion over Pt/Al2O3, Pd/Al2O3, a |
116, 161 |
Mining platinum at Rustenburg |
138 |
Nickel, electrowinning, by platinum metals/Ti electrodes, a |
114 |
Nitric Oxide, adsorption and decomposition on Ir, a |
82 |
Noble Metals, hydrogenation over, review of, a |
162 |
wear, in air |
134 |
Olefins, hydrogenation by platinum metal complexes/ compounds, a |
118, 162 |
isomerisation over PdCl2 complex, a |
162 |
oxidation by Pd complexes, a |
118 |
Osmium, extraction during Ni purification, a |
41 |
Osmium Alloys, Cu-Ni-S-Os, carbonylation of, a |
44 |
Osmium Complexes, OsCl4(SCl4)2, a |
114 |
Os3(CO)12, for water gas shift reaction, a |
162 |
Oxidation over platinum metals, a |
42, 80, 82, 84, 118 |
Oxygen, evolution on transition metal oxide electrodes, a |
159 |
photoproduction from H2O, a |
82, 115, 159, 160, 161 |
reduction at Pt-O diaphragm, a |
42 |
sensor, with Pt-Rh tube, a |
161 |
sensor, with poisoned Pt electrodes, a |
160 |
sensor, Pt-ZrO2, a |
116 |
Ozone, decomposition in aircraft |
90 |
Palladium, compound, Pd3P1–x, H2(D2) solubility in, a |
113 |
epitaxy on (001)W and (001)Mo, a |
40 |
films, C2H4 adsorption on, a |
43 |
films, Pd/Ti, silicide growth on, a |
158 |
melting point in Ar, O2 effect on, a |
43 |
metallic glasses, Pd-Si-Cu, a |
40, 81 |
powders, interaction with S chloride, a |
43 |
powders, preparation, reactions of, a |
42 |
slurries, preparation, reactions of, a |
42 |
Palladium Alloys, Palladium-Chromium-Ruthenium, |
|
deformation, corrosion resistance, contact behaviour in, a |
81 |
Palladium-Hydrogen, crystallite size effects in, a |
80 |
thin films, phase diagrams, a |
83 |
Palladium-Hydrogen-Rhodium, electrical resistivity of, a |
81 |
Palladium-Iridium-Platinum-Rhodium-Gold, heat resistance, a |
158 |
Palladium-Manganese, magnetoresistance and resistivity, a |
158 |
Palladium-Niobium, phase diagram |
137 |
Palladium-Silicon, amorphous, properties of, a |
40 |
solid phase epitaxial growth in, a |
158 |
Palladium-Silver, elastic properties and diffusion coefficients in, a |
80 |
Palladium-Tin, activators for electroless plating, a |
160 |
Palladium Complexes, antitumour agents, a |
163 |
bis(triphenylphosphine)palladium, a |
159 |
PdCl2, gelatinous, with polybutadiene, for isomerisation, a |
162 |
[(C6H5)2Te]2PdC2O4, a |
81 |
[(C6H5)2Te]2Pd(SCN)2, a |
81 |
triarylphosphine-palladium |
58, 146 |
Pd(0)(Ph3P)2Pd2, a |
42 |
Pd(+1)(Ph3PPdOAc)2, a |
42 |
[Ph3PPd(OAc)2]2, a |
42 |
Palladium Silicides, formation, a |
40, 81 |
Pd80Si20, structural changes after neutron irradiation, a |
81 |
Petroleum Reforming, catalyst promoter in |
103 |
Plating, palladium for Ti, Cr and stainless steels, a |
119 |
electroless, palladium-tin activators for, a |
160 |
PdCl2/SnCl2 catalysts for, a |
160 |
platinum ion, on Ti alloys, a |
83 |
ruthenium, for electrical contacts |
50 |
Platinum, amorphous, implanted on Si, segregation and solubility of, a |
113 |
compounds, with rare earths, magnetic properties and structures, a |
113 |
discovery, Swedish contributions to |
31 |
dispersed, sintering of, a |
82 |
epitaxy on (001)W and (001)Mo, a |
40 |
films, C2H4 adsorption, a |
43 |
polycrystalline, He ions reflection from, a |
80 |
powder metallurgy of |
70 |
powders, interaction with S chloride, a |
43 |
powders, preparation, reactions of, a |
42 |
slurries, preparation, reactions of, a |
42 |
superalloys containing |
2 |
Ullmann's Encyklopädie |
55 |
viscosity measuring apparatus made from |
100 |
Platinum Alloys, creep of, a |
113 |
heat resistant, a |
158 |
Platinum-Copper, quenched, short range order in, a |
158 |
Platinum-Iron, paramagnetic susceptibility of, a |
158 |
Platinum-Nickel, ordering and domain structure, a |
113 |
Platinum-Oxide, alloy diaphragm, oxygen reduction at, a |
42 |
Platinum-Rhodium, gauze for NH3 oxidation, a |
84 |
in oxygen sensor, a |
161 |
surface composition, a |
80 |
morphology on amorphous silica, a |
80 |
Platinum-Tungsten, alloying behaviour and applications |
64 |
Platinum-Yttrium, properties of, a |
113 |
Platinum Complexes, bis(triphenylphosphine)platinum, a |
159 |
cluster carbonyls |
26 |
di-Pt(II) octaphosphite, luminescence of, a |
81 |
photosensitive, with organo-Te ligands, a |
81 |
Platinum Silicides, formation, a |
80, 113 |
Platinum Metals, chromium alloys containing, potential oscillations in, a |
114 |
international conference, chemistry of |
99 |
review articles in Metals and Materials |
101 |
superalloys containing |
2 |
supply and use, book review |
143 |
wear in air |
134 |
world production, consumption and demand |
57 |
Platinum Metals Complexes, cluster carbonyls |
26 |
phosphines for catalysis |
144 |
substituted aryl phosphines |
95 |
Platinum Metals Hydrides, conferences |
102 |
Platinum Sources, Colombia and Ecuador, ancient deposits |
147 |
Ontario deposits, world situation |
57 |
Merensky Platreef deposits |
63 |
Rustenburg Platinum Mines |
138 |
world situation |
143 |
Pollution Control, platinum catalyst for, injection moulding fumes |
12 |
malodorous compounds, a |
83 |
RuO4 for organosulphur odorants, a |
83 |
Powder Metallurgy, of platinum |
70 |
Powders, palladium, platinum, S2Cl2 reaction with, a |
43 |
palladium and platinum, preparation of, a |
42 |
Pt/TiO2/RuO2 for H2 photoproduction from carbohydrate, a |
159 |
Resistance Thermometers, origins |
104 |
Rhodium, chemisorption of CO,CO2 on, a |
82 |
compound, (NH3)5LRu(NH3)5, energy transfer in, a |
41 |
compound, Cr1–xRhxO2, magnetic properties of, a |
158 |
compounds, (R.E.)RhxSny, magnetism and superconductivity, a |
159 |
dispersed, sintering of, a |
82 |
epitaxy on (001)W and (001)Mo, a |
40 |
Rhodium Alloys, heat resistant, a |
158 |
Rhodium-Hydrogen-Palladium, electrical resistivity of, a |
81 |
Rhodium-Platinum, surface composition, a |
80 |
supported on amorphous silica, a |
80 |
Rhodium Complexes, Rh isocyanides for energy storage, a |
40 |
Rh(III) and Rh(I) S-bonded sulphoxides, a |
114 |
with μ 2-carbonyl bridges, a |
114 |
Rhodium Oxide, thin film, electrochromic, a |
115 |
Ruthenium, adsorption of H2S, H2 and S on, a |
41 |
compound, (NH3)5RuLRh(NH3)5, energy transfer in, a |
41 |
compound, RRu2 (R =Er, Ho, Nd), interaction with H2, a |
114 |
contacts, electrodeposited |
25, 50 |
contacts, evaluation, a |
85 |
single crystals, magnetic breakdown in, a |
41 |
Ruthenium Alloys, carbonylation of, a |
44 |
for anodes, a |
115 |
Ruthenium-Chromium-Palladium, deformation, corrosion resistance, contact behaviour in, a |
81 |
Ruthenium-Zirconium, formation of, a |
114 |
Ruthenium Complexes, reduction of, a |
116 |
RuCl2(PO)2 |
95 |
Ru3(CO)12, for water gas shift reaction, a |
162 |
Ru2Ge3–ySiy, Ru2Ge3–xSnx, electrical and magnetic properties, a |
158 |
Sr2FexRu1–xO4, properties, a |
114 |
tris(bipyridyl)Ru(II), for photoreduction of methylviologen, a |
160 |
substituted aryl phosphines |
95 |
with μ 2-carbonyl bridges, a |
114 |
Ruthenium Oxides, for contacts, a |
85 |
for pollution control, a |
83 |
Scheffer, H. T., platinum discovery, role in |
31 |
Sensors, for hydrogen or reducing gases, a |
119 |
for oxygen, a |
43, 116, 160, 161 |
Siemens, Sir William, resistance thermometer |
104 |
Slurries, palladium and platinum, preparation of, a |
42 |
Standard, ASME, for measuring active surface area of catalysts, a |
161 |
Steel, with Pd, Mo additions, properties, a |
115 |
Structure, amorphous, Pd80Si20, changes after neutron irradiation, a |
81 |
crystal, effect on noble metal wear |
134 |
crystal, epitaxy of Rh, Ir, Pd and Pt on (001)W and (001)Mo, a |
40 |
crystallites, Pt-Rh on amorphous SiO2, a |
80 |
crystallite, size effect in Pd-H, a |
80 |
domain, formation, in Ni-Pt alloys, a |
113 |
electronic, trans -XHPd(PH3)2, trans -XYPd(PH3)2, a |
84 |
formation, Pt silicide, a |
80 |
grain, of Ir-0.3W, a |
41 |
interfacial, of Pd/Au films, a |
40 |
rare earth-Pt compounds, a |
113 |
short range order in quenched CuPt, a |
158 |
solid phase epitaxial growth, Pd/Si in, a |
158 |
surface composition, Pt-Rh, a |
80 |
Sulphur, adsorption on Ru(110), a |
41 |
Sulphuric Acid, purification by platinum, a |
42 |
Superalioys, platinum enriched, applications and properties |
2 |
Temperature Scale, the first |
104 |
Thin Films, GaAs, Schottky diodes, Ru ions in, a |
119 |
Pd/Au epitaxial structure of, a |
40 |
Pd-H, phase diagrams of, a |
83 |
IrO2, electrochromic, a |
45, 160 |
Pd electrode, H2 sorption at, a |
115 |
Pd and Ti, silicide formation on, a |
158 |
Rh oxide, electrochromic, a |
115 |
Titanium Alloys, Pt ion plated, creep of, a |
83 |
Turbines, gas, Pd catalyst for combustor, a |
44 |
Ullmann's Encyklopädie, on platinum |
55 |
Viscosimeter, Pt, for molten fluoborates |
100 |
Water Gas Shift Reaction, Ru carbonyls for, a |
85 |
Ru and Os carbonyls for, a |
162 |
Welding, Ir-0.3W with Th and Al, a |
116 |