Anodic Protection, of stainless steel, a |
66 |
of stainless steel tank car |
99 |
Aromatics Production, at I.C.I., Billingham |
46 |
Calorimeters, Pd black coating of, a |
104 |
Cast Iron, quality |
17 |
Catalysis, discovery by Dobereiner |
136 |
molecular model study of |
38 |
Catalysts, selection and use |
74 |
Adams’, in fuel cells, a |
66 |
Iridium, complexes, properties, a |
106 |
Ir/Al20„ hydrogenation of olefins, a |
29 |
Ir/C, dehydrocyclisation of diethyl ether, a |
30 |
Osmium, hydrogenation of but-2-yne, a |
143 |
Os/Al2O3, hydrogenation of olefins, a |
143 |
Os/C, dehydrocyclisation of diethyl ether, a |
30 |
Palladium, black, hydrogenation of n-pentynes, a |
65 |
complexes, isomerisation of olefins, a |
146 |
complexes, reduction of inorganic compounds, a |
145 |
complexes, synthesis of βγ-unsaturated esters, a |
145 |
D2-butadiene reaction, a |
30 |
for njhj reductions, a |
106 |
in fuel cells, a |
66 |
poisoning of supports, a |
146 |
powder, cyclohexane disproportionation, a |
30 |
Raney-type, hydrogenation of s-furylpropionic acid, a |
65 |
Palladium-Boron, aromatisation power, a |
146 |
PdCl2, carbonylation of allylic compounds, a |
65 |
complex, carbonylation, a |
65 |
complexes, homogeneous isomerisation by, a |
105 |
olefin complexes with CO, a |
65 |
oxidation of C2H4, a |
30 |
PdCl2/CuCl2, oxidation of C.H4, a |
30 |
Palladium-Copper, oxidation of H2-CO mixtures, a |
146 |
Palladium-Gold, foils, effect of y-radiation, a |
145 |
Pd-Au/SiO2, dehydrogenation of cyclohexane, a |
65 |
Pd/activated zeolite, for hydrocracking, a |
144 |
Pd/Al2O3,dehydrogenation of cyclohexane, a |
144 |
hydrogenation of cyclohexane derivatives, a |
105 |
Pd/Al2O3-B2O,isomerisation and hydrogenation of n -paraffins, a |
30 |
Pd/CaCO3, for N2H4 reductions, a |
106 |
Pd/C, conversion of tetrahydrofuran |
105 |
homologues, a dehydrocyclisation of diethyl ether, a |
30 |
for N,H4 reductions, a |
106 |
hydrogenation of alkoxyanilines, a |
146 |
hydrogenation of cyclohexane derivatives, a |
105 |
hydrogenation of /3-furylpropionic acid, a |
65 |
Pd/SrCO3, for N2H4 reductions, a |
106 |
Palladium-Silver,alloys, parahydrogen |
145 |
conversion, a |
145 |
Platinum, black, active surface,a |
145 |
black, decomposition of butanes, a |
145 |
black, hydrogenation of n-pentynes, a |
65 |
complexes, hydrosilation of olefins, a |
106 |
complexes, reduction of inorganic compounds, a |
145 |
D2-butadiene reaction, a |
30 |
for N2Hi reductions, a |
106 |
gauze, synthesis of HCN, a |
144 |
isomerisation of petroleum distillate fractions, a |
144 |
platinised, oxidation of CH3OH, HCHO, a |
29 |
reforming, reactions of «-heptane, a |
65 |
Platinum-Boron, aromatisation power, a |
146 |
Platinum-Iron, conversion of methylcyclo-octane, a |
145 |
Platinum Metal Sulphides, for hydrogenation, a |
143 |
Platinum Metals, deuteration of CsHjN, azines, a |
30 |
Pt/Al2O3 continuous use in reforming, a |
105 |
dehydrocyclisation of n-heptane, n-octane, a |
65 |
dehydrogenation of cyclohexane, a |
144 |
deuteration of p -xylene, a |
144 |
halogen-promoted, in naphtha reforming, a |
105 |
hydrogenation of C2Hi, a |
144 |
hydrogenation of cycloalkenes, a |
29 |
hydrogenation of olefins, a |
29 |
hydrogenolysis of methylcyclopentane, i a |
29 |
isomerisation of n-pentane, a |
65 |
promoted by B,F, isomerisation of pentane, hexane, a |
29 |
release of H atoms from |
6 |
synthesis of HCN, a |
144 |
texture of, a |
105 |
Pt/Al2O3-F, hydrocracking, a |
105 |
Pt/C, conversion of methylcyclooctane, a |
145 |
dehydrocyclisation of diethyl ether, a |
30 |
hydrogenation of acetone-iso-propylamine mixture, a |
29 |
hydrogenation of •-furylpropionic acid, a |
65 |
Pt/SiO2 dehydrocyclisation of aromatic hydrocarbons, a |
144 |
deuteration of /^-xylene, a |
144 |
Pt dispersion on, a |
105 |
preparation and chemisorption of H2, a |
145 |
Pt/SiO2-Al203, hydrocracking, a |
105, 143 |
in naphtha reforming, a |
105 |
Pt/Ag, in fuel cells, a |
66 |
Pt/zeolite, dispersion of Pt on, a |
29 |
Pt02, hydrogenation of alkoxyanilines, a |
146 |
hydrogenation of cycloalkenes, a |
105 |
Platinum-Rhodium, gauze, NHS, oxidation, a |
144 |
Pt-Rh-Pb/Al2O3,H2-Osreaction, a |
144 |
Platinum-Ruthenium Oxides, activity, a |
64 |
Platinum-Tin Chloride, isomerisation of pent-l-ene, a |
64 |
Rhodium, black, hydrogenation of n -pentynes, a |
65 |
complexes, hydrogenation of acetylenes, a |
106 |
complexes, hydrogenation of acetylenes and olefins, a |
106 |
complexes, hydrogenation of olefins, a |
106 |
complexes, reduction of inorganic compounds, a |
145 |
films, Ha-Os reaction on, a |
106 |
Rh/Al2O3, dehydrogenation of cyclohexane, a |
144 |
hydrogenation of alkoxyanilines, a |
146 |
Rh/C, dehydrocyclisation of diethyl ether, a |
30 |
hydrogenation of alkoxyanilines, a |
146 |
hydrogenation of jS-furylpropionic acid, a |
65 |
Rh/SiO2-MgO, for hydrocracking, a |
144 |
Rhodium-Platinum, gauze, NH, oxidation, a |
144 |
Ruthenium, hydrogenation of but-2-yne, a |
143 |
Ru/ Al2O3, dehydrogenation of cyclohexane, a |
144 |
hydrogenation of olefins, a |
143 |
oxidation of NH3 a |
106 |
Ru/Ca, for N2H4 reductions, a |
106 |
Ru/C, for NaH4 reductions, a |
106 |
Ru-Pt oxide, activity |
12, 64 |
Transition Metals, --bonding at, a |
64 |
Cathodic Protection, platinised Ti electrodes, a |
30 |
platinised Ti electrodes, for jetties, a |
146 |
Chemical Plating, Platinum Metals, methods and applications, a |
28 |
Coatings, Palladium, black, a |
104 |
Palladium-Gold, on glass and ceramics, a |
104 |
Corrosion, Pd-Ti, a |
107 |
Crucibles, Ir, for crystal pulling, a |
29 |
Pt-lined, for melting of radioactive glass |
89 |
Crystal Growing, Ir strip heater for, a |
64 |
Crystal Pulling, laser single crystals, a |
29 |
Deuteration of, pyridine, azines, a |
30 |
Deuterium, exchange reactions, a |
143, 144 |
reaction with butadiene, a |
30 |
Diffusion Cell, for H„ purification |
7 |
Diffusion Tubes, Pd, for H2 recovery |
50 |
Döbereiner, Johann Wolfgang, discovery of catalysis |
136 |
Electrical Contacts, low current types, a |
107 |
Electrodeposition of, Metals, on plastics, PdCls activation, a |
64 |
Palladium, pore-free |
80 |
soldering of components |
90 |
Platinum Metals, electrolytes for, a |
28 |
resistors in microcircuits, a |
64 |
Electrodes, Palladium, electrolytic H2 transmission, a |
63 |
in fuel cells, a |
66, 106 |
Palladium-Gold, H2-absorption, a |
26 |
Palladium-Silver, H2-absorption, a |
28 |
Platinised Ti, anodes, as ground beds, a |
30 |
anodes, in cathodic protection, a |
146 |
in repeatered submarine cables, a |
30 |
Platinum, adsorption of ions and molecules, a |
143 |
anodes, protection of stainless steel, a |
66 |
black, in fuel cells, a |
106 |
in fuel cells, a |
66, 106 |
oxidation of C2H, and C.H4, a |
104 |
platinised, oxidation of CH3OH, a |
104 |
platinised, surface area, a |
64 |
reduction of 02, a |
104 |
Platinum-Chromium, anodic properties, a |
143 |
Platinum-Gold, H2 adsorption, a |
104 |
02 layer on, a |
142 |
surface composition, a |
103 |
Platinum Metals, alloys, in electrocatalysis |
122 |
blacks, in fuel cells, a |
146 |
Pt/C, anodes, activity, a |
104 |
in cell for H2 purification |
58 |
Pt/Ag, in fuel cells, a |
66 |
Platinum-Ruthenium, precipitate, oxidation of CH3OH, a |
104 |
Rhodium, passivation in HC1, a |
64 |
Ruthenium, oxidation of CH3OH, a |
104 |
Ruthenium-Platinum, precipitate, oxidation of CH3OH, a |
104 |
Fibres, production, a |
107 |
Field Ion microscopy, of Pt metals |
84 |
Fuel Cells, H2-02, a |
66 |
Pt black electrodes, a |
106 |
Pt metal black electrodes, a |
146 |
Pt metals in |
14,119 |
Pt, Pd, and Ag electrodes, a |
106 |
C3H8-air, a |
66 |
C3H,-air, a |
66 |
technique for H2 purification |
58 |
Furnace, Pt-wound, for testing refractories, a |
143 |
vacuum, Pt alloy-wound |
43 |
Glass, Au-Pd film on, a |
104 |
Pt nuclei in |
9 |
storage of radioactive residues |
89 |
wetting of Pt |
92 |
wetting of Pt alloys |
130 |
Hydrogen, chemisorption detector for, a |
104 |
Hydrogen Cyanide, synthesis, a |
144 |
Hydrogen Diffusion, in fuel cell, a |
66 |
in Pd and Ag-Pd, a |
140 |
Pd films, large-scale process |
50 |
electrolytically through Pd, a |
63 |
Hydrogen Purification, electrolytic technique |
58 |
laboratory unit |
7 |
Hydrogenation, molecular model study of |
38 |
Hydrogenation of, acetone-isopropylamine |
29 |
mixture, a acetylenes, a |
106, 144 |
alkoxyanilines, a |
146 |
aryl disulphides, a |
143 |
but-2-yne, a |
143 |
cycloalkenes, a |
29, 105 |
cyclohexane derivatives, a |
105 |
/3-furylpropionic acid, a |
65 |
methyl oleate ozonolysis products, a |
146 |
olefins, a |
29,106,143 |
n -paraffins, a |
30 |
n -pentynes, a |
65 |
Iridium, crucible for crystal pulling, a |
29 |
heater for crystal growing, a |
64 |
oxidation |
51 |
phase relations with sesquioxides, a |
141 |
properties at high temperature |
18 |
with transition and lanthanidc elements,a |
141 |
Iridium Alloys, Iridium-Boron, solidus temperature, a |
141 |
Iridium-Manganese, magnetic properties, a |
102 |
Indium-Niobium, constitution, a |
62 |
Iridium-Phosphorus, solidus temperature, a |
141 |
Iridium-Platinum, electronic specific heat, a |
26 |
magnetic susceptibility, a |
26 |
Iridium-Silicon, solidus temperature, a |
141 |
Iridium-Titanium, crystal structure, a |
27 |
Iridium Chloride, structure, a |
28, 142 |
Iridium Complexes, biguanide derivatives, a |
28 |
with phthalocyanine, a |
63 |
with SnCl2, a |
63 |
Iridium Compounds, CalrO3, a |
103 |
Iridium Fluoride, a |
142 |
Iridium Oxide, phase relations with sesquioxides, a |
141 |
Magnets, Co-Pt, as rotors |
114 |
Molecular Models, in study of hydrogenations |
38 |
Osmium, oxidation |
51 |
Osmium Alloys,Osmium-Chromium, phase diagram, a |
27 |
Osmium Carbide, synthesis, a |
28 |
Osmium Oxides, thermodynamic properties, a |
63 |
Oxidation of, NH, |
106, 144 |
C2H6 and C2H!, a |
104 |
CsHj, a |
30 |
H2-CO mixtures, a |
146 |
CH,OH, a |
104 |
CH,OH, HCHO, a |
29 |
Pd |
126 |
Palladium, black, coating, a |
104 |
condensation on, a |
104 |
diffusion of H2 in, a |
140 |
films |
2 |
films, in H2 recovery |
50 |
Hall coefficient, a |
102 |
in H2 detector, a |
104 |
magnetic properties, effect of Co, Fe, a |
102 |
oxidation |
126 |
total emissivity, a |
27 |
vapour pressure, a |
26, 101, 140 |
wettability, a |
141 |
whisker growth, a |
101 |
Palladium Alloys, Palladium-Chromium, magnetic properties, a |
26 |
Palladium-Cobalt, magnetic properties, a |
26 |
Palladium-Gadolinium, magnetic properties, a |
62, 140 |
Palladium-Gold, film on glass, a |
104 |
H2 absorption, a |
26 |
lattice parameters, a |
61 |
thermal expansion, a |
61 |
Palladium-Hydrogen, heat capacity, a |
101 |
H2 absorption and diffusion, a |
101 |
solubility of H2, a |
140 |
structure, a |
101, 102 |
Palladium-Iron, Hall coefficient, a |
102 |
magnetic properties, a |
26, 102, 140 |
Palladium-Lanthanum, superconductivity in, a |
62 |
Palladium-Manganese, magnetic properties, a |
26, 27 |
Palladium-Mercury, constitution, a |
102 |
Palladium-Molybdenum, constitution and properties, a |
62 |
Palladium-Nickel, lattice parameters, a |
61 |
magnetic properties, a |
26, 140 |
thermodynamic properties, a |
61 |
Palladium-Rhodium, magnetic properties, effect of Co, Fe, a |
102 |
thermoelectric power, a |
61 |
Palladium-Silver, crystal structure, a |
26 |
diffusion of H2 in, a |
140 |
diffusion of H2 in fuel cell, a |
66 |
diffusion tube |
7 |
effect of annealing, a |
26 |
electrical properties, a |
26 |
H2-absorption, a |
28, 102 |
magnetic properties, effect of Co, Fe, a |
102 |
thermodynamic properties, a |
61 |
thermoelectric power, a |
61 |
yield strength, a |
61 |
Palladium-Tantalum, constitution, a |
26 |
Palladium-Tellurium, constitution and properties, a |
102 |
Palladium-Titanium, corrosion resistance, a |
107 |
Palladium Chloride, activator for metallising plastics, a |
64 |
Palladium Complexes, a |
63, 103, 142 |
Palladium Fluorides, a |
63 |
Palladium Oxide, partial pressure, a |
140 |
Palladium-Rhodium Oxide, a |
103 |
Petroleum Refining, catalysts in continuous use, a |
105 |
high pressure hydrocracking, a |
105 |
hydrocracking catalysts, a |
143 |
hydrocracking processes, a |
144 |
isomerisation of distillate fractions, a |
144 |
naphtha reforming, a |
105 |
Petroleum Reforming, aromatics production at I.C.I., Billingham |
46 |
Platflning, at I.C.I., Billingham |
46 |
Platforming, at I.C.I., Billingham |
46 |
Platinum, crucible lining, melting of radioactive glass |
89 |
electronic specific heat, a |
26 |
experiments by Wood |
20 |
films, adsorption of Kr, a |
140 |
hardening of laminated sheet, a |
27 |
magnetic susceptibility, a |
26 |
metal films |
2 |
nuclei in glass |
9 |
oxidation, a |
141 |
production increased |
45 |
quenched, deformation of, a |
100 |
resistivity, effect of contamination on |
59 |
tank, a |
143 |
thermal conductivity 60, |
100 |
thermal diffusion, a |
100 |
thermodynamic data |
122 |
thermoelectric size effect, a |
100 |
wettability, a |
141 |
wetting by glass |
92 |
work-hardening |
19 |
Platinum Alloys, with transition and lanthanide elements, a |
141 |
with transition metals, electrical conductivity, a |
101 |
furnace elements |
43 |
Platinum-Antimony, semiconducting properties, a |
140 |
Platinum-Boron, constitution, a |
101 |
Platinum-Chromium, magnetic properties, a |
101 |
specific heat, a |
101 |
Platinum-Cobalt, coercivity, a |
140 |
crystal structure, a |
100 |
magnetic properties, a |
61, 100, 101, 140 |
rotors |
114 |
Platinum-Gadolinium, magnetic properties, a |
101 |
Platinum-Gold, electronic specific heat, a |
26 |
film resistors |
82 |
magnetic susceptibility, a |
26 |
precipitation in |
100, 129 |
spinnerets, a |
107 |
Platinum-Gold-Rhodium, spinnerets, a |
107 |
Platinum-Iridium, electronic specific heat, a |
26 |
magnetic susceptibility, a |
26 |
Platinum-Iron, magnetic properties, a |
100, 101, 140 |
solid solution strengthening of, a |
100 |
specific heat, a |
101 |
Platinum-Manganese, crystal structure, a |
26 |
magnetic properties, a 101, |
140 |
specific heat, a |
101 |
Platinum-Nickel, magnetic properties, a |
101 |
specific heat, a |
101 |
Platinum-Rhodium, in thermal conductivity apparatus, a |
143 |
spinnerets, a |
107 |
Platinum-Rhodium-Gold, spinnerets, a |
107 |
wetting by glass |
130 |
Platinum-Silicon, crystal structure, a |
26 |
Platinum-Titanium, electrical conductivity, a |
101 |
Platinum-Tungsten, thermal conductivity, a |
140 |
Platinum-Zirconium, electrical conductivity, a |
101 |
Platinum Chloride, crystal structure, a |
28, 141 |
Platinum Complexes, a |
142 |
carbonyl formation, a |
103 |
substitution reactions, a |
103 |
with SnCl2, a |
63 |
Platinum Iodides, thermal dissociation, « |
63 |
Platinum Metals, field ion microscopy |
84 |
galvanic couples |
56 |
in electrical contacts, a |
107 |
in electrocatalysis |
122 |
in fuel cells |
14, 119 |
magnetic properties |
16 |
phosphine complexes |
47 |
pyrite and marcasite compounds, electrical properties, a |
103 |
with Nb, superconductivity, a |
103 |
with rare earths and Th, superconductivity, a |
102 |
Potassium Chlorplatinate, hydrolysis, a |
142 |
Potassium Chlorplatinite, hydrolysis, a |
141 |
Radioactive Residues, disposal as glass |
89 |
Rayon, production, a |
107 |
Refractories, corrosion resistance of, a |
143 |
Resistance Thermometers, Pt, at low temperatures, a |
31 |
Pt, computations, a |
107 |
Pt, surface contamination of |
59 |
Pt, thin film, a |
146 |
Resistors, noble metal film |
82 |
Rhodium, condensation on, a |
104 |
electronic specific heat, a |
62 |
magnetic susceptibility, a |
62 |
oxidation |
51 |
total emissivity, a |
27 |
wettability, a |
141 |
Rhodium Alloys, with transition and lanthanide elements, a |
141 |
Rhodium-Goid-Platinum, spinnerets, a |
107 |
Rhodium-Lithium, crystal structure, a |
141 |
Rhodium-Manganese, magnetic properties, a |
102 |
Rhodium-Nickel, constitution and properties, a |
141 |
Rhodium-Niobium, constitution, a |
62 |
Rhodium-Palladium, magnetic properties, effect of Co, Fe, a |
102 |
thermoelectric power, a |
61 |
Rhodium-Platinum, in thermal conductivity apparatus, a |
143 |
spinnerets, a |
107 |
Rhodium-Platinum-Gold, spinnerets, a |
107 |
wetting by glass, a |
130 |
Rhodium Complexes, a |
142 |
with halidcs, a |
28 |
with CSHSN, a |
63 |
with SnCi2, a |
63 |
Rhodium Compounds, spinels, a |
28 |
sulphospinels, a |
27 |
Rhodium Fluorides, structure, a |
142 |
Rhodium-Palladium Oxide, a |
103 |
Rocketry, exhaust gas energy, a |
104 |
Rustenburg Platinum Mines, production increased |
45 |
Ruthenium, compressibility, a |
27 |
oxidation |
51 |
Ruthenium Alloys, Ruthenium Chromium, phase diagram, a |
62 |
Ruthenium-Iron, transformations, a |
62 |
Ruthenium-Nickel, constitution and properties, a |
27 |
Ruthenium-Niobium, constitution, a |
27 |
Ruthenium-Silicon, structure, a |
141 |
Ruthenium Carbide, synthesis, a |
28 |
Ruthenium Chloride, preparation and properties, a |
142 |
structure, a |
142 |
Ruthenium Complexes, hydrido-carbonyl complexes, a |
28 |
with phthalocyanine, a |
63 |
with SnCl„ a |
63 |
Ruthenium Compounds, BaRuO3, a |
103 |
Ruthenium Fluoride, enthalpy of formation, a |
142 |
Ruthenium Oxides, dioxide, 02 chemisorption, a |
103 |
tetroxide, heat of sublimation, a |
63 |
thermodynamic properties, a |
63 |
Spinnerets |
107 |
Thermal Conductivity, apparatus, a |
143 |
Thermocouples, care and maintenance |
57 |
Gee |
91 |
Iridium: Iridium-Rhodium, review of, a |
31 |
Pallador II |
83 |
Platinum: Gold, lattice parameter/temperature measurements, a |
147 |
Platinum Metals, stability |
118, 147 |
Platinum: Rheniunm, review of, a |
31 |
Platinum: Rhodium-Platinum, carbon equivalent determination |
17 |
for furnace control, a |
143 |
in blast furnace control |
91 |
in thermal conductivity apparatus, a |
143 |
pressure dependence, a |
107 |
review of, a |
31 |
Rhodium-Platinum:Rhodium-Piatinum, “five-twenty” reference table |
9 |
review of, a |
31 |
Rhodium. Rhenium-Platinum, review of, a |
31 |
Rhodium:Rhodium-Platinum, review of, a |
31 |
Tritiation of, pyridine, azines, a |
30 |
Wood, Charles, experiments on Pt by |
20 |