Acetone, deuteration & exchange reactions, a |
143 |
hydrogenation of, a |
65 |
Aircraft, measurement of combustibility hazard, a |
140 |
m-Alkylanilines, preparation of, a |
29 |
Amines, unsaturated, hydrogenation of, a |
142 |
Amino-Sugar, synthesis of, a |
65 |
Benzoic Acid, hydrogenation in alcoholic solution, a |
142 |
Bombs, Pt coated for high temperature work, a |
29 |
Brazing, with Ru, a |
31 |
Bursting Discs |
9 |
Carbon Monoxide, reaction with steam, a |
102 |
Catalysis, |
|
electronic theory, a |
30 |
International Congress |
24 |
Catalysts, |
|
general theory, a |
66 |
IrCl3, silicon hydride—olefin reactions, a |
102 |
Ir-pumice, D2 reactions, a |
103 |
Palladium, film, acetone—D2 reactions, a |
143 |
film, acetone hydrogenation, a |
65 |
film, methylamine hydrogenation, a |
66 |
increasing selectivity, a |
142 |
Pd-Al2O3,cyclohexane dehydrogenation, a |
102 |
reactions of alkanes with D2, a |
104 |
Pd-BaCO3, dialkylvinylcarbinol preparation, a |
65 |
Pd-BaSO4. p-cymene oxidation, a |
30 |
Pd-black, m-alkylaniline preparation, a |
29 |
Pd-CaCO3 (Lindlar), total synthesis of vitamins |
119 |
Pd-C, cinnamic acid hydrogenation, a |
142 |
cis-cyclotetradecene dehydrocyclisation, a |
142 |
p-cymene oxidation, a |
30 |
5-ethyl-1-methyl-2-piperidine-ethanol preparation, a |
142 |
preparation, a |
65 |
selcctive analytical hydrogenation of olefins, a |
66 |
PdO, cinnamic acid hydrogenation, a |
142 |
PdO-BaSO4, amino-sugar synthesis, a |
65 |
Pd-pumice, D2 reactions, a |
103 |
Pd alloys-alkaline earth metal carbonates, H2O2 decomposition & m-nitrophenol reduction, a |
141 |
Platforming, effect of S on life, a |
103 |
Platinum, ethylene hydrogenation, a |
102 |
filament, ethane dehydrogenation, a |
30 |
film, acetone—D2 reactions, a |
143 |
film, acetone hydrogenation, a |
65 |
film, cyclohexylamine decomposition, a |
65 |
film, methylamine hydrogenation, a |
66 |
future requirements for petroleum industry |
129 |
gauze, fume-elimination |
50 |
HCN formation, a |
143 |
increasing selectivity, a |
142 |
methane oxidation, a |
30, 66 |
petroleum refining |
38 |
surface state, a |
103 |
various, effect on reaction kinetics, a |
30 |
various, silicon hydride—olefin reaction, a |
102 |
Pt-Al2O3, cyclohexene hydrogenation, a |
141 |
oxidation of industrial effluents, a |
65, 141 |
selective analytical hydrogenation of olefins, a |
66 |
Ultraforming, a |
102 |
Pt-Al2O3-SiO2, isomerisation of saturated hydrocarbons, mechanism, a |
142 |
selective analytical hydrogenation of olefins, a |
66 |
Pt-black, benzoic acid hydrogenation, a |
142 |
Pt-C, ethanol autoxidation, a |
66 |
methyldichlorosilane addition reactions, a |
141 |
PtO2, amine hydrogenation, a |
142 |
benzoic acid hydrogenation, a |
142 |
5-ethyl-2-piperidine-ethanol preparation, a |
142 |
vitamin A oxidation, a |
102 |
Pt-pumice, D2 reactions, a |
103 |
Pt-SiO2, effect of heat treatment, a |
141 |
Pt alloys-alkaline earth metal carbonates, H2O2 decomposition & m-nitrophenol reduction, a |
141 |
Pt metals, hydrogenation |
87 |
Rh-film, acetone-D2 reactions, a |
143 |
Rh-pumice, D2 reactions, a |
103 |
RuCl3, silicon hydride-olefin reactions, a |
102 |
Ru-supported, CO-steam reaction, a |
102 |
Cathodic Protection, |
|
anodes for, a |
30 |
of iron, a |
67 |
of naval vessels |
26, 82 |
Cinnamic Acid, hydrogenation in alcoholic solution, a |
142 |
Creep, Pt metals & alloys |
23 |
testing of Pt alloys |
121 |
Cyclohexane, dehydrogenation, a |
102 |
Cyclohexene, hydrogenation, Liquid-phase, a |
141 |
Cyclohexylamine, decomposition, a |
65 |
Cyclopropane, reactions with D2, a |
103 |
cis-Cyclotetradecene, dehydrocyclisation, a |
142 |
p-Cymene, oxidation, a |
30 |
Deuterium, electrolytic separation from hydrogen |
49 |
reactions, a |
103 |
with acetone, a |
143 |
with alkanes, a |
104 |
with ethylene, a |
30 |
Dialkylvinylcarbinols, preparation of, a |
65 |
Differential Thermal Analysis, apparatus for, a |
64 |
Electrical Contacts, |
|
activation of |
134 |
arc erosion |
57 |
discharges between separating, a |
104 |
light-duty |
74 |
material transfer, a |
67 |
Pd coated in wire spring relay, a |
67 |
Pd relay, activated, a |
104 |
Pd-Au bimetal, in wire spring relays, a |
67 |
selecting materials, a |
31 |
Electrodeposition of, |
|
Iridium, solution for, a |
64 |
Palladium, a |
28 |
Rhodium in co-axial radio-frequency circuits |
14 |
heavy, a |
28 |
Ruthenium, a |
19, 64 |
Electrodes, |
|
Iridium, hydrogen overvoltage on, a |
64 |
Palladium, hydrogen evolution, a |
101 |
Palladium-Gold cathodes as catalysts, a |
140 |
Platinum, a.c. electrolysis of NaCl solutions, a |
63 |
amperometric titrations, a |
29 |
anode, persulphate preparation, a |
64 |
behaviour of O2-H2O2-H2O system at, a |
28 |
micro-, contamination of, a |
102 |
oxygen coating, a |
101 |
oxygen evolution, a |
27 |
oxygen & H2O2 reduction, a |
140 |
polarised in electro-titrimetry, a |
101 |
potential in very pure water, a |
101 |
in ‘solion’, a |
144 |
Rhodium, hydrogen evolution, a |
101 |
hydrogen overvoltage on, a |
64 |
phase-group impedance, a |
27 |
Electron Tubes, in transatlantic cable, a |
104 |
Electro-Titrimetry, a |
101 |
Ethane, adsorption on Pd & Rh, a |
66 |
dehydrogenation, a |
30 |
Ethanol, autoxidation, a |
66 |
Ethylene, hydrogenation, a |
102 |
reactions with D2, a |
30 |
Ethyl Sulphide, adsorption on Pt, a |
29 |
Ethynyl Carbinols, semi-hydrogenation, a |
65 |
Fume Elimination, in enamelling ovens |
50 |
Furnace, to study divitrification of glass, a |
102 |
Gaseous Effluents, oxidation of, a |
65, 141 |
Gases, combustible, determination of in aircraft, a |
140 |
limitations of indicators, a |
140 |
Glass, automatic control of glassworks feeder, a |
143 |
devitrification, study of, a |
102 |
measurement of high-temperature heat content of, a |
64 |
-metal joints, a |
64 |
new fixed-point of viscosity, a |
140 |
phase separation in Na3PO4 melts, a |
67 |
Pt metals, coloration in |
44 |
wettability of Pt by molten NaSiO3, a |
143 |
Hot-Wire Anemometer, in supersonic flow, a |
64 |
Hydrocarbons, saturated, isomérisation mechanism, a |
142 |
Hydrogen, adsorption on Pt, a |
100, 103 |
evolution from Pd & Rh electrodes, a |
101 |
isotope separation |
49 |
Hydrogen Cyanide, formation of, a |
143 |
Hydrogen Peroxide, cathodic reduction, a |
140 |
Hydrogenation, analytical of olefinic distillates, a |
66 |
mechanism of, on Pd & Pt, a |
142 |
Pt metal catalysts |
87 |
Iridium, thermal & electrical conductivity, a |
100 |
thermionic emission constants, a |
31 |
Iridium Alloys, Iridium-Platinum, constitution, a |
27 |
Iridium-Strontium, constitution, a |
139 |
Liquid-Level Indicator, hot-wire, a |
65 |
Magnets, permanent, Pt-Co |
84,135 |
preparation of, a |
101 |
Methane, adsorption on Pd & Rh, a |
66 |
determination of, a |
28 |
oxidation over Pt, a |
30, 66 |
Methylamine, hydrogenation, a |
66 |
Methyldichlorosilane, addition to esters & nitriles in siloxane synthesis, a |
141 |
m-Nitroacylbenzenes, catalytic hydrogenation of, a |
29 |
Osmium, superconductivity, a |
139 |
Osmium Alloys, Osmium-Chromium,constitution,a |
100 |
a-phase structure, a |
138 |
Oxygen, cathodic reduction, a |
140 |
chemisorption on Pt, a |
103 |
heat of adsorption on Pt, a |
30 |
Palladium, atomic heat, a |
62 |
isotope decay, a |
21 |
membrane for separating deuterium |
49 |
optical properties, a |
100 |
working, effect of gases on, a |
29 |
Palladium Alloys, Palladium-Bismuth, superconductivity, a |
138 |
Palladium-Chromium, magnetic measurements, a |
62 |
Palladium-Cobalt, magnetic study, hydrogenated, a |
63 |
Palladium-Cobalt-Copper, constitution, a |
101 |
Palladium-Cobalt-Gold, constitution, a |
101 |
Palladium-Copper, CuPd3 superstructure, a |
100 |
Palladium-Hydrogen, atomic heat, a |
62 |
effect of hydrogen on resistance & potential, a |
139 |
Palladium-Iron-Chromium-Aluminium, properties, a |
63 |
Palladium-Nickel, electrical resistivity, a |
27, 138 |
electronic properties, a |
27 |
magnetic properties, a |
62, 63 |
Palladium-Nickel-Copper, magnetic measurements, a |
62 |
Palladium-Rhenium, Hall effect, a |
62 |
Palladium-Selenium, structure, a |
139 |
Palladium-Silver, Hall effect, a |
27, 62 |
self-diffusion of Ag, a |
100 |
Palladium-Strontium, constitution, a |
139 |
Palladium-Titanium, Hall effect, a |
62 |
Palladium-Uranium, electrical & magnetic properties, a |
138 |
magnetic susceptibility, a |
62 |
phase diagram, a |
27 |
Persulphates, preparation of, a |
64 |
Petroleum Refining, economics, a |
141 |
hydrofiners, integration of, a |
65 |
isomerisation |
127 |
mechanism of, a |
142 |
operation of catalytic reformer, a |
65 |
Penex-Platforming, isomerisation, a |
30 |
Platforming, effect of sulphur on catalyst life, a |
103 |
at Ellesmere Port refinery, a |
143 |
in natural gasoline plant, a |
30 |
platinum catalysts for |
38 |
future requirements |
129 |
reforming at Coryton refinery, a |
143 |
reforming, new process |
127 |
reforming processes, review, a |
141 |
review of patents, a |
102 |
Rexforming, a |
66 |
Ultraforming, a |
102 |
Piperidines, physiological properties, synthesis, a |
142 |
Platinum, adsorption of I & CN ions, a |
142 |
atomic & electronic heats, a |
139 |
catalytic, microstructure, a |
66 |
effect of extension on annealing rate of lattice vacancies, a |
62 |
effect of quenching vacancies on resistivity, a |
62 |
evaporation in presence of methane, a |
66 |
historical |
96 |
hydrogen adsorption, a |
100 |
mining at Rustenburg |
3 |
expansion |
94 |
oxidation & volatilisation |
55 |
oxide formation in cathodic spluttering, a |
138 |
oxygen adsorption on, a |
30 |
phthalocyanine, electron microscopy of |
93 |
sintering in N2 atmosphere, effect on catalytic activity, a |
141 |
thermal & electrical conductivity, a |
62, 100 |
Platinum Alloys, Platinum-Alkaline & Alkaline Earth Metals, a |
139 |
Platinum-Cobalt, magnetic properties, a |
101 |
ordering, a |
63 |
as permanent magnets |
84 |
Platinum-Gold, precipitation in, a |
139 |
Platinum-Iridium, constitution, a |
27 |
Platinum-Iron, magnetostriction, a |
101 |
ordering in Fe3Pt, a |
63 |
Platinum-Iron-Chromium-Aluminium, properties, a |
63 |
Platinum-Strontium, constitution, a |
139 |
Platinum Metals, bursting discs |
9 |
in chemical industry, a. |
67 |
colours in glass |
44 |
creep |
23 |
physical properties |
61 |
preparation of samples by electrolytic lapping, a |
140 |
preparation of samples with a microtome, a |
28 |
Platinum Metal Alloys, |
|
Boron, Silicon & Phosphorus, eutectic compounds |
136 |
creep testing of |
121 |
Plutonium, extraction & purification of |
132 |
Propane, reaction with D2, a |
103 |
Propyl Chlorides, reactions with D2, a |
103 |
Propylene, reaction with D2, a |
103 |
Pyrometers, suction, design & use, a |
32 |
suction in gas temperature measurement, a |
31 |
venturi pneumatic in gas temperature measurement, a |
31 |
Radio-Frequency Circuits, Co-axial, Rh in |
14 |
Relays, high-speed for telephone installations, a |
143 |
wire-spring, design of, a |
67 |
manufacture of, a |
67 |
Resistance Thermometers, precision measurements with, a |
67 |
Rhodium, Hall effect, a |
63 |
isotope decay, a |
27 |
thermal & electrical conductivity, a |
100 |
Rhodium Alloys, Rhodium-Bismuth, superconductivity, a |
138 |
Rhodium-Strontium, constitution, a |
139 |
Ruthenium, allotropy, a |
138 |
brazing Mo & W, a |
31 |
superconductivity, a |
139 |
Ruthenium Alloys, Ruthenium-Chromium, cr-phase structure, a |
138 |
Silicon Hydrides, addition to olefins, a |
102 |
Slip Rings, in flight instruments |
99 |
miniature, CuPd in, a |
67 |
Sodium Chloride solution, a.c. electrolysis of, a |
63 |
Sodium Phosphate, Pt induced phase separation in, a |
67 |
Sodium Silicate, molten, wettability of Pt by, a |
143 |
Solion for electronic applications, a |
144 |
Sulphuric Acid, Pt boilers for |
51 |
Telephone Installations, internal, noble-mctal relays in, a |
143 |
Temperature Measurement, & control of steel, a |
144 |
of gases, industrial, a |
31 |
in metallurgy, review, a |
31 |
of steel, in Japan, a |
144 |
in U.S.S.R. |
98 |
quick immersion method |
110 |
Thermocouples, automatic control of glassworks feeder, a |
143 |
control of steel temperature, a |
144 |
design in U.S.S.R. |
98 |
errors of, in steel works, a |
144 |
‘five-twenty’ couple |
20 |
immersion, inspection of, a |
144 |
in metallurgy, a |
31 |
sheathed in gas temperature measurement, a |
31 |
steel temperature measurement, quick immersion method |
110 |
Thiophen, adsorption on Pt, a |
29 |
Triode, U.H.F., design of, a |
143 |
Vitamin A, oxidation of, a |
102 |
Vitamins, total synthesis of |
119 |
Platinum, a.c. electrolysis of NaCl solutions, a |
63 |
amperometric titrations, a |
29 |
anode, persulphate preparation, a |
64 |
behaviour of O2-H2O2-H2O system at, a |
28 |
micro-, contamination of, a |
102 |
oxygen coating, a |
101 |
oxygen evolution, a |
27 |
oxygen & H2O2 reduction, a |
140 |
polarised in electro-titrimetry, a |
101 |
potential in very pure water, a |
101 |
in ‘solion’, a |
144 |
Rhodium, hydrogen evolution, a |
101 |
hydrogen overvoltage on, a |
64 |
phase-group impedance, a |
27 |
Electron Tubes, in transatlantic cable, a |
104 |
Electro-Titrimetry, a |
101 |
Ethane, adsorption on Pd & Rh, a |
66 |
dehydrogenation, a |
30 |
Ethanol, autoxidation, a |
66 |
Ethylene, hydrogenation, a |
102 |
reactions with D2, a |
30 |
Ethyl Sulphide, adsorption on Pt, a |
29 |
Ethynyl Carbinols, semi-hydrogenation, a |
65 |
Fume Elimination, in enamelling ovens |
50 |
Furnace, to study divitrification of glass, a |
102 |
Gaseous Effluents, oxidation of, a |
65, 141 |
Gases, combustible, determination of in aircraft, a |
140 |
limitations of indicators, a |
140 |
Glass, |
|
automatic control of glassworks feeder, a |
143 |
devitrification, study of, a |
102 |
measurement of high-temperature heat content of, a |
64 |
-metal joints, a |
64 |
new fixed-point of viscosity, a |
140 |
phase separation in Na3PO4 melts, a |
67 |
Pt metals, coloration in |
44 |
wettability of Pt by molten NaSiO3, a |
143 |
Hot-Wire Anemometer, in supersonic flow, a |
64 |
Hydrocarbons, saturated, isomerisation mechanism, a |
142 |
Hydrogen, adsorption on Pt, a |
100, 103 |
evolution from Pd & Rh electrodes, a |
101 |
isotope separation |
49 |
Hydrogen Cyanide, formation of, a |
143 |
Hydrogen Peroxide, cathodic reduction, a |
140 |
Hydrogenation, analytical of olefinic distillates, a |
66 |
mechanism of, on Pd & Pt, a |
142 |
Pt metal catalysts |
87 |
Iridium, |
|
thermal & electrical conductivity, a |
100 |
thermionic emission constants, a |
31 |
Iridium Alloys, |
|
Iridium-Platinum, constitution, a |
27 |
Iridium-Strontium, constitution, a |
139 |
Liquid-Level Indicator, hot-wire, a |
65 |
Magnets, permanent, Pt-Co |
84, 135 |
preparation of, a |
101 |
Methane, adsorption on Pd & Rh, a |
66 |
determination of, a |
28 |
oxidation over Pt, a |
30, 66 |
Methylamine, hydrogenation, a |
66 |
Methyldichlorosilane, addition to esters & nitriles in siloxane synthesis, a |
141 |
m-Nitroacylbenzenes, catalytic hydrogenation of, a |
29 |
Osmium, superconductivity, a |
139 |
Osmium Alloys, |
|
Osmium-Chromium, constitution, a |
100 |
σ-phase structure, a |
138 |
Oxygen, cathodic reduction, a |
140 |
chemisorption on Pt, a |
103 |
heat of adsorption on Pt, a |
30 |
Palladium, |
|
atomic heat, a |
62 |
isotope decay, a |
21 |
membrane for separating deuterium |
49 |
optical properties, a |
100 |
working, effect of gases on, a |
29 |
Palladium Alloys, |
|
Palladium-Bismuth, superconductivity, a |
138 |
Palladium-Chromium, magnetic measurements, a |
62 |
Palladium-Cobalt, magnetic study, hydrogenated, a |
63 |
Palladium-Cobalt-Copper, |
|
constitution, a |
101 |
Palladium-Cobalt-Gold, constitution, a |
101 |
Palladium-Copper, CuPd3 |
|
superstructure, a |
100 |
Palladium-Hydrogen, atomic heat, a |
62 |
effect of hydrogen on resistance & potential, a |
139 |
Palladium-Iron-Chromium-Aluminium, properties, a |
63 |
Palladium-Nickel, electrical resistivity, a |
27, 138 |
electronic properties, a |
27 |
magnetic properties, a |
62, 63 |
Palladium-Nickel-Copper, magnetic measurements, a |
62 |
Palladium-Rhenium, Hall effect, a |
62 |
Palladium-Selenium, structure, a |
139 |
Palladium-Silver, Hall effect, a |
27, 62 |
self-diffusion of Ag, a |
100 |
Palladium-Strontium, constitution, a |
139 |
Palladium-Titanium, Hall effect, a |
62 |
Palladium-Uranium, electrical & magnetic properties, a |
138 |
magnetic susceptibility, a |
62 |
phase diagram, a |
27 |
Persulphates, preparation of, a |
64 |
Petroleum Refining, economics, a |
141 |
hydrofiners, integration of, a |
65 |
isomérisation |
127 |
mechanism of, a |
142 |
operation of catalytic reformer, a |
65 |
Penex-Platforming, isomerisation, a |
30 |
Platforming, effect of sulphur on catalyst life, a |
103 |
at Ellesmere Port refinery, a |
143 |
in natural gasoline plant, a |
30 |
platinum catalysts for |
38 |
future requirements |
129 |
reforming at Coryton refinery, a |
143 |
reforming, new process |
127 |
reforming processes, review, a |
141 |
review of patents, a |
102 |
Rexforming, a |
66 |
Ultraforming, a |
102 |
Piperidines, physiological properties, synthesis, a |
142 |
Platinum, adsorption of I & CN ions, a |
142 |
atomic & electronic heats, a |
139 |
catalytic, microstructure, a |
66 |
effect of extension on annealing rate of lattice vacancies, a |
62 |
effect of quenching vacancies on resistivity, a |
62 |
evaporation in presence of methane, a |
66 |
historical |
96 |
hydrogen adsorption, a |
100 |
mining at Rustenburg |
3 |
expansion |
94 |
Acetone, deuteration & exchange reactions, a |
143 |
hydrogenation of, a |
65 |
Aircraft, measurement of combustibility hazard, a |
140 |
m-Alkylanilines, preparation of, a |
29 |
Amines, unsaturated, hydrogenation of, a |
142 |
Amino-Sugar, synthesis of, a |
65 |
Benzoic Acid, hydrogenation in alcoholic solution, a |
142 |
Bombs, Pt coated for high temperature work, a |
29 |
Brazing, with Ru, a |
31 |
Bursting Discs |
9 |
Carbon Monoxide, reaction with steam, a |
102 |
Catalysis, electronic theory, a |
30 |
International Congress |
24 |
Catalysts, general theory, a |
66 |
IrCl3, silicon hydride—olefin reactions, a |
102 |
Ir-pumice, D2 reactions, a |
103 |
Palladium, film, acetone—D2 reactions, a |
143 |
film, acetone hydrogenation, a |
65 |
film, methylamine hydrogenation, a |
66 |
increasing selectivity, a |
142 |
Pd-Al2O3, cyclohexane dchydrogenation, a 102 reactions of alkanes with D2, a |
104 |
Pd-BaCO3, dialkylvinylcarbinol preparation, a |
65 |
Pd-BaSO4. p-cymene oxidation, a |
30 |
Pd-black, m-alkylaniline preparation, a |
29 |
Pd-CaCO3 (Lindlar), total synthesis of vitamins |
119 |
Pd-C, cinnamic acid hydrogenation, a |
142 |
cis-cyclotetradcccnc dehydrocyclisation, a |
142 |
p-cymene oxidation, a |
30 |
5-ethyl-1-methyl-2-piperidine-ethanol preparation, a |
142 |
preparation, a |
65 |
selcctive analytical hydrogenation of olefins, a |
66 |
PdO, cinnamic acid hydrogenation, a |
142 |
PdO-BaSO4, amino-sugar synthesis, a |
65 |
Pd-pumice, D2 reactions, a |
103 |
Pd alloys-alkaline earth metal carbonates, H2O2 decomposition & m-nitrophenol reduction, a |
141 |
Platforming, effect of S on life, a |
103 |
Platinum, ethylene hydrogenation, a |
102 |
filament, ethane dehydrogenation, a |
30 |
film, acetone—D2 reactions, a |
143 |
film, acetone hydrogenation, a |
65 |
film, cyclohexylamine decomposition, a |
65 |
film, methylamine hydrogenation, a |
66 |
future requirements for petroleum industry |
129 |
gauze, fume-elimination |
50 |
HCN formation, a |
143 |
increasing selectivity, a |
142 |
methane oxidation, a |
30, 66 |
petroleum refining |
38 |
surface state, a |
103 |
various, effect on reaction kinetics, a |
30 |
various, silicon hydride—olefin reaction, a |
102 |
Pt-Al2O3, cyclohexene hydrogenation, a |
141 |
oxidation of industrial effluents, a |
65, 141 |
selective analytical hydrogenation of olefins, a |
66 |
Ultraforming, a |
102 |
Pt-Al2O3-SiO2, isomerisation of saturated hydrocarbons, mechanism, a |
142 |
selective analytical hydrogenation of olefins, a |
66 |
Pt-black, benzoic acid hydrogenation, a |
142 |
Pt-C, ethanol autoxidation, a |
66 |
methyldichlorosilane addition reactions, a |
141 |
PtO2, amine hydrogenation, a |
142 |
benzoic acid hydrogenation, a |
142 |
5-ethyl-2-piperidine-ethanol preparation, a |
142 |
vitamin A oxidation, a |
102 |
Pt-pumice, D2 reactions, a |
103 |
Pt-SiO2, effect of heat treatment, a |
141 |
Pt alloys-alkaline earth metal carbonates, H2O2 decomposition & m-nitrophenol reduction, a |
141 |
Pt metals, hydrogenation |
87 |
Rh-film, acetone-D2 reactions, a |
143 |
Rh-pumice, D2 reactions, a |
103 |
RuCl3, silicon hydride-olefin reactions, a |
102 |
Ru-supported, CO-steam reaction, a |
102 |
Cathodic Protection, anodes for, a |
30 |
of iron,a |
67 |
of naval vessels |
26, 82 |
Cinnamic Acid, hydrogenation in alcoholic solution, a |
142 |
Creep, Pt metals & alloys |
23 |
testing of Pt alloys |
121 |
Cyclohexane, dehydrogenation, a |
102 |
Cyclohexene, hydrogenation, Liquid-phase, a |
141 |
Cyclohexylamine, decomposition, a |
65 |
Cyclopropane, reactions with D2, a |
103 |
cis-Cyclotetradecene, dehydrocyclisarion, a |
142 |
p-Cymene, oxidation, a |
30 |
Deuterium, electrolytic separation from hydrogen |
49 |
reactions, a |
103 |
with acetone, a |
143 |
with alkanes, a |
104 |
with ethylene, a |
30 |
Dialkylvinylcarbinols, preparation of, a |
65 |
Differential Thermal Analysis, apparatus for, a |
64 |
Electrical Contacts, activation of |
134 |
arc erosion |
57 |
discharges between separating, a |
104 |
light-duty |
74 |
material transfer, a |
67 |
Pd coated in wire spring relay, a |
67 |
Pd relay, activated, a |
104 |
Pd-Au bimetal, in wire spring relays, a |
67 |
selecting materials, a |
31 |
Electrodeposition of, |
|
Iridium, solution for, a |
64 |
Palladium, a |
28 |
Rhodium in co-axial radio-frequency circuits |
14 |
heavy, a |
28 |
Ruthenium, a |
19, 64 |
Electrodes, Iridium, hydrogen overvoltage on, a |
64 |
Palladium, hydrogen evolution, a |
101 |
Palladium-Gold cathodes as catalysts, a |
140 |
Platinum, a.c. electrolysis of NaCl solutions, a |
63 |
amperometric titrations, a |
29 |
anode, persulphate preparation, a |
64 |
behaviour of O2-H2O2-H2O system at, a |
28 |
micro-, contamination of, a |
102 |
oxygen coating, a |
101 |
oxygen evolution, a |
27 |
oxygen & H2O2 reduction, a |
140 |
polarised in electro-titrimetry, a |
101 |
potential in very pure water, a |
101 |
in ‘solion’, a |
144 |
Rhodium, hydrogen evolution, a |
101 |
hydrogen overvoltage on, a |
64 |
phase-group impedance, a |
27 |
Electron Tubes, in transatlantic cable, a |
104 |
Electro-Titrimetry, a |
101 |
Ethane, adsorption on Pd & Rh, a |
66 |
dehydrogenation, a |
30 |
Ethanol, autoxidation, a |
66 |
Ethylene, hydrogenation, a |
102 |
reactions with D2, a |
30 |
Ethyl Sulphide, adsorption on Pt, a |
29 |
Ethynyl Carbinols, semi-hydrogenation, a |
65 |
Fume Elimination, in enamelling ovens |
50 |
Furnace, to study divitrification of glass, a |
102 |
Gaseous Effluents, oxidation of, a |
65, 141 |
Gases, combustible, determination of in aircraft, a |
140 |
limitations of indicators, a |
140 |
Glass, automatic control of glassworks feeder, a |
143 |
devitrification, study of, a |
102 |
measurement of high-temperature heat content of, a |
64 |
-metal joints, a |
64 |
new fixed-point of viscosity, a |
140 |
phase separation in Na3PO4 melts, a |
67 |
Pt metals, coloration in |
44 |
wettability of Pt by molten NaSiO3, a |
143 |
Hot-Wire Anemometer, in supersonic flow, a |
64 |
Hydrocarbons, saturated, isomérisation mechanism, a |
142 |
Hydrogen, adsorption on Pt, a |
100, 103 |
evolution from Pd & Rh electrodes, a |
101 |
isotope separation |
49 |
Hydrogen Cyanide, formation of, a |
143 |
Hydrogen Peroxide, cathodic reduction, a |
140 |
Hydrogenation, analytical of olefinic distillates, a |
66 |
mechanism of, on Pd & Pt, a |
142 |
Pt metal catalysts |
87 |
Iridium, thermal & electrical conductivity, a |
100 |
thermionic emission constants, a |
31 |
Iridium Alloys, Iridium-Platinum, constitution, a |
27 |
Iridium-Strontium, constitution, a |
139 |
Liquid-Level Indicator, hot-wire, a |
65 |
Magnets, permanent, Pt-Co |
84,135 |
preparation of, a |
101 |
Methane, adsorption on Pd & Rh, a |
66 |
determination of, a |
28 |
oxidation over Pt, a |
30, 66 |
Methylamine, hydrogenation, a |
66 |
Methyldichlorosilane, addition to esters & nitriles in siloxane synthesis, a |
141 |
m-Nitroacylbenzenes, catalytic hydrogenation of, a |
29 |
Osmium, superconductivity, a |
139 |
Osmium Alloys, Osmium-Chromium,constitution,a |
100 |
a-phase structure, a |
138 |
Oxygen, cathodic reduction, a |
140 |
chemisorption on Pt, a |
103 |
heat of adsorption on Pt, a |
30 |
Palladium, atomic heat, a |
62 |
isotope decay, a |
21 |
membrane for separating deuterium |
49 |
optical properties, a |
100 |
working, effect of gases on, a |
29 |
Palladium Alloys, Palladium-Bismuth, superconductivity, a |
138 |
Palladium-Chromium, magnetic measurements, a |
62 |
Palladium-Cobalt, magnetic study, hydrogenated, a |
63 |
Palladium-Cobalt-Copper, constitution, a |
101 |
Palladium-Cobalt-Gold, constitution, a |
101 |
Palladium-Copper, CuPd3 superstructure, a |
100 |
Palladium-Hydrogen, atomic heat, a |
62 |
effect of hydrogen on resistance & potential, a |
139 |
Palladium-Iron-Chromium-Aluminium, properties, a |
63 |
Palladium-Nickel, electrical resistivity, a |
27, 138 |
electronic properties, a |
27 |
magnetic properties, a |
62, 63 |
Palladium-Nickel-Copper, magnetic measurements, a |
62 |
Palladium-Rhenium, Hall effect, a |
62 |
Palladium-Selenium, structure, a |
139 |
Palladium-Silver, Hall effect, a |
27, 62 |
self-diffusion of Ag, a |
100 |
Palladium-Strontium, constitution, a |
139 |
Palladium-Titanium, Hall effect, a |
62 |
Palladium-Uranium, electrical & magnetic properties, a |
138 |
magnetic susceptibility, a |
62 |
phase diagram, a |
27 |
Persulphates, preparation of, a |
64 |
Petroleum Refining, economics, a |
141 |
hydrofiners, integration of, a |
65 |
isomérisation |
127 |
mechanism of, a |
142 |
operation of catalytic reformer, a |
65 |
Penex-Platforming, isomerisation, a |
30 |
Platforming, effect of sulphur on catalyst life, a |
103 |
at Ellesmere Port refinery, a |
143 |
in natural gasoline plant, a |
30 |
platinum catalysts for |
38 |
future requirements |
129 |
reforming at Coryton refinery, a |
143 |
reforming, new process |
127 |
reforming processes, review, a |
141 |
review of patents, a |
102 |
Rexforming, a |
66 |
Ultraforming, a |
102 |
Piperidines, physiological properties, synthesis, a |
142 |
Platinum, adsorption of I & CN ions, a |
142 |
atomic & electronic heats, a |
139 |
catalytic, microstructure, a |
66 |
effect of extension on annealing rate of lattice vacancies, a |
62 |
effect of quenching vacancies on resistivity, a |
62 |
evaporation in presence of methane, a |
66 |
historical |
96 |
hydrogen adsorption, a |
100 |
mining at Rustenburg |
3 |
expansion |
94 |
oxidation & volatilisation |
55 |
oxide formation in cathodic spluttering, a |
138 |
oxygen adsorption on, a |
30 |
phthalocyanine, electronmicros copy of |
93 |
sintering in N2 atmosphere, effect on catalytic activity, a |
141 |
thermal & electrical conductivity, a |
62,100 |
Platinum Alloys, |
Platinum-Alkaline & Alkaline |
Earth Metals, a |
139 |
Platinum-Cobalt, magnetic properties, a |
101 |
ordering, a |
63 |
as permanent magnets |
84 |
Platinum-Gold, precipitation in, a |
139 |
Platinum-Iridium, constitution, a |
27 |
Platinum-Iron, magnetostriction, a |
101 |
ordering in Fe3Pt, a |
63 |
Platinum-Iron-Chromium-Aluminium, |
properties,a |
63 |
Platinum-Strontium, constitution, a |
139 |
Platinum Metals, |
|
bursting discs |
9 |
in chemical industry, a. |
67 |
colours in glass |
44 |
creep |
23 |
physical properties |
61 |
preparation of samples by electrolytic lapping, a |
140 |
preparation of samples with a microtome, a |
28 |
Platinum Metal Alloys, |
|
Boron, Silicon & Phosphorus, eutectic compounds |
136 |
creep testing of |
121 |
Plutonium, extraction & purification of |
132 |
Propane, reaction with D2, a |
103 |
Propyl Chlorides, reactions with D2, a |
103 |
Propylene, reaction with D2, a |
103 |
Pyrometers, suction, design & use, a |
32 |
suction in gas temperature measurement, a |
31 |
venturi pneumatic in gas temperature measurement,a |
31 |
Radio-Frequency Circuits, Co-axial, Rh in |
14 |
Relays, high-speed for telephone installations, a |
143 |
wire-spring, design of, a |
67 |
manufacture of, a |
67 |
Resistance Thermometers, precision measurements with, a |
67 |
Rhodium, |
|
Hall effect, a |
63 |
isotope decay, a |
27 |
thermal & electrical conductivity, a |
100 |
Rhodium Alloys, |
|
Rhodium-Bismuth, superconductivity, a |
138 |
Rhodium-Strontium, constitution, a |
139 |
Ruthenium, |
|
allotropy, a |
138 |
brazing Mo & W, a |
31 |
superconductivity, a |
139 |
Ruthenium Alloys, |
|
Ruthenium-Chromium, σ-phase structure, a |
138 |
Silicon Hydrides, addition to olefins, a |
102 |
Slip Rings, in flight instruments |
99 |
miniature, CuPd in, a |
67 |
Sodium Chloride solution, a.c. electrolysis of, a |
63 |
Sodium Phosphate, Pt induced phase separation in, a |
67 |
Sodium Silicate, molten, wettability of Pt by, a |
143 |
Solion for electronic applications, a |
144 |
Sulphuric Acid, Pt boilers for |
51 |
Telephone Installations, internal, noble-mctal relays in, a |
143 |
Temperature Measurement, |
|
& control of steel, a |
144 |
of gases, industrial, a |
31 |
in metallurgy, review, a |
31 |
of steel, in Japan, a |
144 |
in U.S.S.R. |
98 |
quick immersion method |
110 |
Thermocouples, |
|
automatic control of glassworks feeder, a |
143 |
control of steel temperature, a |
144 |
design in U.S.S.R. |
98 |
errors of, in steel works, a |
144 |
‘five-twenty’ couple |
20 |
immersion, inspection of, a |
144 |
in metallurgy, a |
31 |
sheathed in gas temperature measurement, a |
31 |
steel temperature measurement, quick immersion method |
110 |
Thiophen, adsorption on Pt, a |
29 |
Triode, U.H.F., design of, a |
143 |
Vitamin A, oxidation of, a |
102 |
Vitamins, total synthesis of |
119 |