Absorption, H2, in Pd-Ga, thermodynamics, a |
155 |
Acetaldehyde, synthesis, in fuel cell, a |
233 |
Acetalisation, alkenes, a |
162 |
Acetals, formation, a |
43 |
Acetophenone, electrohydrogenation, a |
225 |
Acetylene, reactions, a |
43, 161 |
Acrylic Acids, asymmetric hydrogenation, a |
232 |
Adsorption, azomethane, on Pt(lll), a |
226 |
CO, on Pd(100)-S, a |
99 |
on Pt/TiO2, methanation sites, a |
229 |
on Rh, a |
223 |
C2H4, on Pt, a |
98, 229 |
H2, on Pt/TiO2, methanation sites, a |
229 |
nitrogen oxides, on polycrystalline Pt, a |
98 |
NO, on Rh, a |
100 |
Alcohols, allyl, hydroformylation, hydrogenation, a |
107, 230 |
ally lie, asymmetric hydrogenation, a |
232 |
benzyl, electrooxidation, a |
226 |
cyclohexanol, oxidation, dehydrogenation, a |
107, 228 |
ethyl, methyl, carbonylation |
178 |
methyl, decomposition, a |
42, 161 |
synthesis, a |
43, 162 |
catalytic oxidation, NEMCA effect |
122 |
electrooxidation, a |
156, 225, 226 |
formation from CO2, a |
225 |
fuel cell, a |
163 |
production, a |
46, 162 |
propargylic, coupling with aryl halides, a |
232 |
sensor |
130 |
Aldehyde, linear, formation, a |
45 |
Aldol, production, a |
107 |
Alfonso Cossa, history |
215 |
Alkanes, catalytic formation, a |
230 |
dehydrogenation, photochemical, a |
39, 227 |
hydrogenolysis, a |
41, 162 |
oxidation, a |
41 |
production by reductive elimination, a |
224 |
Alkanes, n-, reforming, a |
160 |
Alkenes, acetalisation, a |
162 |
catalytic formation, a |
230 |
chlorocarbon addition, a |
45 |
cyclic, reactions, a |
232 |
from alkanes, a |
39, 227 |
hydroformylation, a |
45 |
hydrogenation, a |
46, 105, 230 |
oxypalladation, a |
162 |
production by reductive elimination, a |
224 |
Alkyl Formates, decarbonylation, a |
46 |
Alkylbenzenes, oxydehydrogenation, a |
231 |
Allylations, asymmetric, of chiral enamines, a |
231 |
Allylbenzene, conversion, a |
46 |
Amides, formation, a |
46 |
Ammonia, isocyanate production, a |
42, 43 |
oxidation plants |
47, 62 |
reaction with CO, a |
43 |
synthesis, catalyst, a |
45, 231 |
Amorphisation, of Al2Pt, a |
155 |
Aromatic Acids, synthesis, a |
163 |
Aromatisation, naphtha, paraffin, a |
41, 160 |
Aryl Chlorides, reactions, a |
46, 107, 161, 232 |
Aryl Halides, for Arylations, cyclic alkenes, a |
232 46, 232 |
Arylcycloalkenes, production, a |
232 |
Arylsulphonyl Chlorides, reactions, a |
162, 231 |
Autocatalysts, contamination by fuel additives |
16, 97 |
recovery of spent, book review |
25 |
Azomethane, photolysis, a |
226 |
Benzaldehyde, production, a |
107 |
Benzene, conversion from acetylene, a |
161 |
desorption from Pt, a |
224 |
hydrogenation, a |
45, 160, 231 |
oxidation, a |
43 |
in fuel cell, a |
108, 233 |
Benzoic Acid, formation, a |
107 |
Benzoquinone, production, a |
43 |
Biaryls, synthesis, a |
107, 162 |
Bismuth, coadsorption on Pt on HCOOH oxidation, a |
224 |
Book Reviews, 5th Int. Platinum Sym. |
214 |
Catalysis or Organic Reactions |
143 |
Catalysis Volume 8 |
73 |
Handbook of Precious Metals |
135 |
New Developments in Selective Oxidation |
205 |
"Platinum 1990" |
141 |
Transition Metal Complexes as Drags and Chemotherapeutic Agents |
15 |
Butadiene, reactions, a |
105, 160, 184, 230 |
Butane, detector, a |
159 |
hydrogenolysis, isomerisation, a |
229, 228 |
Butane-l, 4-diol, production, a |
107 |
Cancer, anti-tumour Pt complexes, a |
110, 235 |
book review on drugs |
15 |
drugs, neutron capture therapy, a |
48, 166 |
Capacitors, RuOx-ionomer composite, a |
166 |
Carbapenems, 2-aryl substituted, a |
231 |
Carboannulation, 1, 3-dienes, a |
232 |
Carbocycles, production, a |
232 |
Carbon Oxides, CO, adsorption, on Pt, Pd, a |
43, 99, 222, 229 |
adsorption with H2, on Ru/C black, a |
45 |
catalytic oxidation |
45, 122 |
chemisorptions, a |
106, 162, 223, 230 |
detection, a |
40, 104 |
for aromatic acid synthesis, a |
163 |
for hydrocarbon synthesis, a |
161 |
for isocyanate production, a |
42, 43, 106 |
for MeOH synthesis, a |
43, 162 |
hydrogenations, a |
105, 106 |
reaction with NH3, a |
43 |
reaction with NO, O2, a |
105 |
CO2, activation by Ir2(CO)3(dmpm)2, a |
37 |
cycloaddition to propyne, a |
106 |
for CH, reforming, a |
230 |
for formate photoproduction, a |
159 |
methanation, a |
44 |
reduction, a |
37, 46, 107, 225, 227 |
Carbonylation, reactions, a |
2, 46, 161, 178, 231, 232 |
Carboxylation, cyclohexane, a |
107 |
Carboxylic Acids, formation, a |
46 |
hydrogenation, a |
162, 232 |
Carburisation, Pd/Al2O3, a |
43 |
Catalysis, book review |
73 |
by tris (hydroxymethyl) phosphine, complexes |
74 |
for organic reactions, book review |
143 |
heterogeneous, a |
41-45, 105-106, 160-162, 228-231 |
homogeneous, a |
45-46, 107, 162-163, 231-232 |
industrial, conference |
207 |
phase transfer |
2 |
selective oxidation, conf. review |
205 |
Catalysts, automotive, a |
44 |
effect of fuel additives |
16, 97 |
history |
206 |
new Johnson Matthey plant |
71 |
recovery |
25 |
electrochemical modification, NEMCA effect |
122 |
EuroPt-I, dispersion, a |
228 |
for phase transfer reactions |
2 |
gauzes, in NH, oxidation plant |
62 |
Iridium Complex, [Ir(bpy)2(C2, N9)bpy]3+ in, glass, H, evolution, a |
103 |
Os-Re, carboxylic acid hydrogenation, a |
162 |
Palladium Complexes, 1, 10-phenanthroline-Pd + Cu, ester synthesis, a |
232 |
for arylations, vinylations, a |
232 |
Pd cursors, carbonylations, a |
231 |
PdCl3(MeCN)2, + BiCl3 + LiCl, acetalisation, a |
162 |
PdCl(PhCN)2, for biaryls, a |
162 |
Pd(0), cycloisomerisations, a |
162 |
phenyl-phenyl coupling, a |
231 |
Pd(0)/HCOOH/Et, N, hydrogenolyses, a |
107 |
Pd(bis)(diisopropylphosphine) propane, carbonylations, a |
46 |
Pd(dippp)2, for aryl chloride formylation, a |
107 |
Pd(II), oxypalladation, a |
162 |
aromatic acid synthesis, a |
163 |
salts, CO oxidation, a |
45 |
Pd(OAc)2, double Heck arylation, a |
46 |
diene carboannulation, a |
232 |
cyclohexane carboxylation, a |
107 |
Pd(PPh3)4, asymmetric allylations, a |
231 |
in B-nucleoside synthesis, a |
48 |
cyclic vinylidene carbonates, a |
232 |
Pd2(DBA)3.CHCl3, carbapenem formation, a |
231 |
(Ph-CH(OH)CH2HgCl)+PdCl2, styrene oxidation, a |
107 |
Palladium, black, giant clusters, acetal formation, a |
43 |
for electroless Cu deposition, a |
110 |
membrane, cyclohexane dehydrogenation, a |
47 |
modified Ag, a |
44 |
polycrystalline, CO/NO, CO/O2 reaction, a |
105 |
Pd, Rh, Ru/Al2O3, SiO2, TiO2, isocyanate production, a |
42 |
PdCI2, Wacker process, a |
44 |
PdCl2 + CuSO4/SiO2, benzene oxidation, a |
43 |
Pd(III), C2H2 to CtH6 conversion, a |
161 |
Pd(II)-PVP/SiO2, alkene hydrogenation, a |
230 |
Pd+alkali/SiO2, particle size, H effects, a |
230 |
Pd+Co/A12O3, SiO2A12O3, HC synthesis, a |
161 |
Pd+K2Cr, O7/C9 aryl chloride carbonylation, a |
161 |
Pd+Pt/stainless steel, furnace gas purification, a |
229 |
Pd-Bi/D3520 adsorbing resin, L-sorbose oxidation, a |
230 |
Pd-Cu, catchment gauze |
62 |
Pd-Rh-Zr, powder, hydrocarbon conversions, a |
230 |
Pd-Tc/support, synergism in HC dehydrogenation, a |
43 |
Pd-Te/C, 1, 3-butadiene acetoxylation |
184 |
Pd/Al2O3, butadiene hydrogenation, a |
105, 184 |
carburisation, H2 reduction, a |
43 |
characterisation, by neopentane, a |
42 |
poisoning, on styrene hydrogenation, a |
161 |
Pd/α-Al2O3, dialkyl oxalate formation |
178 |
ethyne hydrogenation, a |
161 |
Pd/C, dialkyl carbonate formation |
178 |
dispersion effects on activity, a |
43 |
H sorbed effects, a |
230 |
Pd/C fibres, CO/H2 reaction, a |
105 |
Pd/C-THF, aldol synthesis, a |
107 |
Pd/glassy C, microelectroprecipitates, a |
225 |
Pd/KF, biaryl synthesis, a |
107 |
Pd/MgO, SiO2, zeolite-X, +La, MeOH synthesis, a |
43, 162 |
Pd/SiO2, NCO movement, a |
43 |
SMSI, a |
230 |
Pd/support, structure effects, a |
228 |
Pd/TiO2, formate, H2 production, a |
158 |
Pd/NaY zeolite, with carbonyl clusters, a |
43 |
KPd/Y-zeolite, in C2H4 polymerisation, a |
106 |
LiPd/Y-zeolite, in C2H, polymerisation, a |
106 |
NaPd/Y, CaPdTY zeolites, Pd migration, a |
161 |
NaPd/Y-zeolite, in C2H, polymerisation, a |
106 |
Pd/zeolite, chemisorption, neopentane catalysis, a |
l62 |
Pd/ZrO2, MeOH decomposition, dispersion, a |
161 |
Pd2+/Pd-Ag+/Ag-H2PO2−, thermodynamics, a |
105 |
Platinum Complexes, trans -PtHX(PEt3)2-CCl4, polymerisation, a |
45 |
[L2Pt(H)Ot-L2)Pt(H)L2]2+, synthesis, a |
45 |
Platinum Metals, cycloolefin, enol ether, hydrogenation, a |
41 |
Platinum, CH4/C, H6 ignition, a |
41 |
polycrystalline, CO/NO, CO/O2 reaction, a |
105 |
O2 modification, a |
42 |
surface states, a |
41 |
wire, C2H4, CH, oxidations, kinetic data, a |
228 |
Pt, Pt+Rh/Al2O3, hydrothermal treatment, a |
160 |
Pt, Pt-Re, Re/NaM, n-heptane hydroconversion, a |
229 |
Pt particies/C, coking, morphology, a |
228 |
Pt, Pd, Rh, Ru hydrosols/ion-exchange resin, cyclohexene hydrogenation, a |
41 |
Pt(RuO2)/TiO2, water photolysis, a |
226 |
Pt+Re+Cr/γ-Al2O3, surface properties, a |
42 |
Pt-Al, oxidation of, activity, a |
41 |
Pt-CeO2-Ni, MeOH decomposition, a |
42 |
Pt-Re/A12O3 Cl- detection, a |
40 |
reforming, metal dispersion, regeneration, a |
228 |
moving bed reformer, a |
160 |
Pt-Re/Al2O3, Al2O3-ZMS-5, reforming, S resistance, a |
228 |
Pt-Rh, in NH, oxidation plant |
62 |
Pt/acetylene black, in fuel cells, a |
108, 233 |
Pt/acidic support, butadiene hydrogenation, a |
160 |
Pt/Al2O3, chlorinated, isomerisation activity, a |
228 |
dispersion, a |
228 |
model catalyst, a |
105 |
particle size effects, a |
160 |
with H-erionite, n-alkane cracking, a |
160 |
Pt/Al2O3, C, cyclohexanone hydrogenation a |
228 |
Pt/β”-Al2O3, C2H, oxidation, NEMCA effect |
122 |
Pt/CdS, Pt loading effect, a |
38 |
Pt/H-Mordenite, coking, ageing, a |
160 |
Pt/Nafion 117, C2H4 electroreduction, a |
225 |
Pt/NaY, preparation, Pt distribution, a |
229 |
Pt/NaHY, activity, a |
42 |
Pt/PVP/mercapto-SiO2 gel, activity, a |
105 |
Pt/SiO2, dispersion, a |
228 |
Pt/SiO2-TiO2, photodeposition, a |
103 |
Pt/SO4/ZrO2, n-pentane isomerisation, a |
229 |
Pt/support, C2H4 adsorption, a |
229 |
structure effects, a |
228 |
Pt/TiO2, H2 photoevolution, a |
32, 102 |
methanation sites, a |
229 |
Pt/ultrastable zeolite HY, coking, ageing, a |
160 |
Pt/γ-Al2O3, sputtered, a |
105 |
Pt/ZrO2, CH4, MeOH, C2H4 oxidation, NEMCA effect |
122 |
Rhodium, polycrystalline, CO/NO, CO/O2 reaction, a |
105 |
Rhodium Complexes, RhCl(CO)(PR3)2, for alkene dehydrogenation, a |
39 |
RhCl3L3, hydrogenations, a |
46 |
Rh(II) carboxylates, homochiral, C-C bond formation, a |
163 |
Rh-phosphole, hydroformylations, a |
46 |
Rh4(CO)12, CO hydrogenation, a |
163 |
Rhacac(CO2), hydroformylations, a |
107 |
Rh4(CO)1(, quinoline reactions, a |
46 |
Trani-Rh(PMe3)2(CO)Cl, alkane dehydrogenation, a |
227 |
Wilkinson's for polybutadiene hydroformylation, a |
232 |
(Ph3P)3RhCI(I), deuterations, a |
163 |
[Rh2(O2CCH3)4] + NaBH4, [Rh2(hfacac)4-(H2O)2]-Ph3P, allylbenzene conversion, a |
46 |
Rh complexes/SiO2, Co-No reaction, a |
106 |
RhOx/CdS/Na2S, photocatalysts, a |
158 |
Rh(acac)3, in hydrogenolyses, a |
162 |
Rh-BINAP, in/-menthol production |
184 |
Rh-Ce/Al2O3, Ce valence, a |
44 |
Rh-Pt/SiO2, hydrocarbon hydrogenolysis, a |
229 |
Rh-V, oxygenate synthesis, a |
106 |
Rh/AlPO4, alkylbenzene oxydehydrogenation, a |
231 |
Rh/Al2O3, coking, a |
44 |
HF impregnated, a |
44 |
high temperature oxidation/reduction, a |
44 |
reactions with CO+H2, a |
106 |
Rh/CdS, Rh2S, /CdS, photocatalytic activity, a |
158 |
Rh/PVP/mercapto-SiO2 gel, activity, a |
105 |
Rh/SiO2, alkane hydrogenolysis, a |
41 |
highly dispersed, a |
44 |
structure, activity, a |
44 |
Rh double Oxides/SiO2, morphology, a |
230 |
Rh precursors/palygorskite, formation, a |
231 |
RhNbO4/SiO2, hydrogenolysis, a |
230 |
Rh/γ-Al2O3, reforming CH4, a |
230 |
Rh4 carbonyl/support, CO2+propyne, a |
106 |
Ruthenium, presulphidisation effects, a |
106 |
Ruthenium Complexes, K[RuIII(EDTA-H)Cl].-2H2O, CO2 reduction, a |
46, 107 |
K3[RuClt], cyclohexanol oxidation+ferricyanide, a |
107 |
[Ru(byp)3]2+, photophysics, a |
103 |
[Ru(bpy)3]2+2Cl-, formate, photoproduction, a |
159 |
RuCl2[PE-PPh2]3, preparation, reactions, a |
45 |
RuCl2(PPh3)3, N, N'-diphenylurea, a |
163 |
RuCl3, 2-methylnaphthalene oxidation, a |
232 |
Ru(bpy)32 +, a |
39 |
Ru(OCOR)2(binap), preparation, asymmetric hydrogenations, a |
232 |
Ru3(CO)12-(CH3)3NO.2H2O, decarbonylauons, a |
46 |
[RuX(binap)(arene)]Y, preparation, asymmetric hydrogenations, a |
232 |
[Ru(saloph)Cl2], cyclohexylamine carbonylation, a |
232 |
Ru-Cu/SiO2, benzene hydrogenation, a |
231 |
Ru/Al2O3, dispersion, a |
45 |
Ru/Al2O3, -K, from Ru3(CO)2, a |
45 |
Ru/C black, for CO-H2 co-adsorption, a |
45 |
Ru/C with oxide promoters, a |
106 |
Ru/SiO2, alkane hydrogenolysis, a |
41 |
sol-gel preparation, a |
45 |
Ru/Y-zeolite, cation effect in Fischer-Tropscb, a |
106 |
Cells, electrochemical, hydronium cells, a |
38 |
electrowinning, a |
226 |
galvanic, emf, a |
233 |
photoelectrochemical, a |
226 |
secondary, a |
226 |
solid state DC ECL, a |
39 |
thermoelectrochemical, a |
102 |
YSZ electochemical, O exchange kinetics, a |
37, 101 |
Chemical Vapour Deposition, a |
36, 98, 103 |
Chemisorptions, a |
106, 162, 223, 230 |
Chloralkali, electrolysis, cathode for, a |
38 |
Chloride, ion detection in Pt-Re/Al2O3, a |
40 |
Chlorine, electrochemical evolution, a |
156, 225 |
Chlorobenzene, formylation, a |
107 |
Chromium Alloys, Cr-Pt-P, corrosion resistant |
84 |
Cisplatin |
15, 235 |
Clusters, linear, conference |
207 |
Coal, direct gasification |
35 |
Coatings, for superalloys, a |
164 |
Os-Re-W, on thermionic coatings |
191 |
Pd on metal hydrides |
142 |
Pt for turbine components |
24 |
Coking, in Pt/C particles, a |
228 |
Rh/Al2O3, S effect, a |
44 |
Cold Fusion, |
101, 136, 225 |
see also Solid State Fusion |
|
Colloids, Ru, for CO, reduction, a |
227 |
Composites, Al-Pt cold rolled, a |
155 |
SPE-electrocatalysts, in fuel cells, a |
47 |
Conferences, 12th on Catalysis of Organic Reactions, San Antonio, April 1988 |
143 |
4th Int. Conf. Chem. Plat. Group Metals, 1990 |
207 |
5th Int. Platinum Sym. |
214 |
Cold Fusion, Salt Lake City, March 1990 |
136 |
First International Fuel Cell Workshop |
77 |
Precious and Rare Metal, autocat recovery |
25 |
selective oxidation |
205 |
Copper, determination in urine, a |
104 |
electroless deposition, a |
110 |
film growth on Pt clusters, a |
108 |
reaction with PtSi, a |
222 |
Corrosion, a |
164 |
alumina on superalloys + Pt, a |
164 |
amorphous Cr-Pt-P alloys |
84 |
cathodic modification of stainless steel |
154 |
double pressed, sintered stainless steel, a |
164 |
in stainless steel-PGM alloys |
85, 144 |
Pd in oxidised Ti electrodes, a |
38 |
platinised Ti electrodes, NaCl electrodialysis, a |
37 |
prevention by cathodic modification, |
204 |
in Fe-Cr, by Pd, Pt, a |
99, 164, 223 |
in turbines |
24 |
Rh-Ti, for surgical implants |
97 |
Ru-Cr alloys in H2SO4, a |
158 |
Crystallisation, amorphous Ti-Pd, a |
223 |
Crystals, Czochralski, PtMnSb, p-PtSb2, a |
233 |
Cyclic Voltammetry, a |
38, 224 |
Cyclisation, reactions, a |
232 |
Cyclohexane, formation, a |
231 |
reactions, a |
41, 47, 107, 230, 233 |
Cyclohexanecarboxylic Acid, a |
107 |
Cyclohexanol, a |
107, 228 |
Cyclohexanone, a |
107, 228 |
Cyclohexene, hydrogenation, a |
41 |
Cyclohexylamine, oxidative carbonylation, a |
232 |
Cyclohexylurethane, formation, a |
232 |
Cycloisomerisations, enynes, review, a |
162 |
Cycloolefins, hydrogenations, a |
41 |
Cyclopentane, hydrogenolysis, a |
229 |
Cyclopentene, arylation, a |
46 |
Decarbonylation, alkyl formates, a |
46 |
Dehydrocyclisation, n-heptane, a |
42 |
Dehydrogenation, alkanes to alkenes, a |
227 |
alkylbenzenes, a |
231 |
cyclic hydrocarbons, synergism in, a |
43 |
cyclohexane, a |
41, 47, 230 |
cyclohexanol, a |
228 |
Depolarisers, concentration measuring, a |
40 |
Detectors, alcohol |
130 |
CO, using SnO2, a |
40, 104 |
Cu in urine, a |
104 |
DNA, a |
105 |
electrical conductivity, a |
104 |
food testing |
24 |
for CI- sensing in Pt-Re/Al2O3, a |
40 |
Hg in H2O, a |
104 |
humidity, a |
104 |
imaging single molecules, a |
104 |
NMR, high temperature, a |
235 |
O2, in physiological media |
181 |
Pd2Si for high energy physics, a |
227 |
pH, a |
40, 159, 165 |
SO2, a |
159 |
stoichiometric composition of flame, a |
40 |
temperature, a |
40, 110, 166, 235 |
thermal neutrons, a |
225 |
Deuterium, in Pd, Ti, a |
101, 222 |
Diacetoxylation, 1, 3-butadiene |
184 |
Dialkyl Carbonates, formation |
178 |
Dialkyl Oxalates, formation |
178 |
Diarylcyclopentenes, synthesis, a |
46 |
α-Diazoketones, C-C bond formation, a |
163 |
Dienes, 1, 3-, carboannulation, a |
232 |
Dienes, 1, 4-, cyclic, production, a |
232 |
Diodes, a-Si:H/Pt, a |
109 |
Pt-Pd/p-CaFe2O4, a |
109 |
Pt-Pd/Rh/p-CaFe2O4, a |
109 |
Diols, for alkenes acetalisation, a |
162 |
N, N'-Diphenylurea, synthesis, a |
163 |
DNA, action of Pt anti-tumour complexes, a |
166, 235 |
imaging, a |
104 |
probe with Ru, a |
105 |
E300 ZGS Rh-Pt, a |
233 |
Electrical Conductivity, monitor, a |
104 |
Electrical Contacts, Au/Ge, -Pd, Pt/n-GaAs, ohmic, a |
109 |
Au/Pd/Zn/Pd/p-InP, a |
109 |
Au/Pt/Ti to p-InGaAs, n-InP, a |
234 |
Pd low resistance ohmic, a |
166 |
Pd-Ag, Pd oxide formation, a |
234 |
Pd-In, -Au/n-GaAs, ohmic, a |
109, 235 |
Pd/Ge ohmic, in MESFETs, a |
234 |
Pt/Ti ohmic, to p-GaAs, C doped, a |
165 |
Electrical Resistivity, D in Pd, Ti, a |
222 |
Electrochemiluminescence, in solid-state cell, a |
39 |
Electrochemistry, a |
37-38, 101, 156-158, 224-226 |
Electrodeposition, a |
103, 159, 227 |
Ag on Os polymer-C, a |
227 |
Ag-Pd, pulse-plating, a |
40 |
electroless, Os, Ru, Cu |
70, 90, 110, 166 |
electroless codeposition, Pd, In, Au, a |
109 |
Ir3+ on C fibre, a |
226 |
Pd, on polymer films/glassy C electrodes, a |
157 |
on vitreous C, a |
159 |
Pd, Pt, on stainless steel, a |
229 |
Pd, Pt, spontaneous, on stainless steel support, furnace gas purification, a |
229 |
Pt, a |
159 |
pulse plating, a |
40 |
Electrodes, anodes, CdS, CdSe, polymer-coated + RuO2, H2 splitting, a |
40 |
electroplating, a |
227 |
IrO2-PAN/Ti, Zn electrowinning, a |
226 |
Pt, in fuel cells, a |
163 |
Pt, Cl2 evolution, a |
156 |
Pt-Ru, MeOH oxidation, a |
225 |
Pt/porous C, in MeOH fuel cell, a |
163 |
cathodes, H-permeable, Pd black/Pd/Ag/V/Pd-Cu/Na/NaH, a |
108 |
Pd, in cold fusion, a |
225 |
Pd black/graphite, in fuel cell, a |
233 |
Pt, in ECL cell, a |
39 |
Pt pure, Fe effect on HER, a |
37 |
Pt-W, CH, polymerisation, a |
108 |
RuO2/Ni, in chloralkali cell, a |
38 |
composite poly nuclear films, a |
158 |
fuel cells, a |
47, 80 |
interdigitated array, Pt, a |
37 |
Ir aggregates on doped SnO2, electrochemistry. a |
39 |
Ir oxide film, neural prostheses |
154 |
Ir-Pb pyrochlore, a |
226 |
Ir/C, activities, a |
226 |
Ir/Hg, film, depolariser concentration, a |
40 |
ultramicroelectrodes |
131 |
Ir/Ti, a |
158 |
NaPtO, rechargeable alkaline fuel cell, a |
164 |
Pd, in cold fusion, a |
101 |
Pd, Ir, film/glassy C, H2O2 reduction, a |
38 |
Pd-Ti, corrosion in acids, a |
101 |
Pd/polymer films/glassy C, a |
157 |
Pd in oxidised Ti, corrosion electrochemistry, a |
38 |
photoanodes, a |
47, 226 |
platinised Ti, corrosion in NaCl electrodialysis, a |
37 |
glyoxylic acid synthesis, a |
157 |
Pt, biomimetic machine, a |
164 |
CO2 reduction in CH3CN, a |
37 |
hydrous oxide growth, a |
224 |
in electrical conductivity monitor, a |
104 |
in fuel cells, a |
163, 233 |
in humidity sensor, a |
104 |
in solar cells, a |
38, 102, 108 |
in solid electrolyte, a |
37, 38 |
in YSZ cells, a |
101 |
organic waste destruction |
10 |
smooth, benzene desorption, a |
224 |
surface morphology changes, a |
224 |
Pt, activated, pH response, a |
40 |
Pt, methylene green modified, haemoglobin redox reaction, a |
224 |
Pt, platinised Pt, porosity effects, a |
225 |
Pt black C-PTFE, in H3PO4, fuel cells, a |
47 |
Pt black-Teflon, in PEM cell, a |
47 |
Pt disk microelectrodes, for Cu in urine, a |
104 |
Pt foil + In + Pb, Au, MeOH oxidation, a |
156 |
Pt microelectrodes, O reduction kinetics, a |
101 |
Pt modified copolymer, H2, HCOOH, MeOH, oxidations, a |
156 |
Pt + Ru/PTFE/C, MeOH oxidation, a |
225 |
Pt-polymer, O2 reduction, a |
157 |
Pt-Ru, fuel cell catalyst, a |
108 |
Pt/glass conducting polymer, a |
164 |
Pt/Nafion 117, film morphology, a |
225 |
Pt/Nafion/glassy C, glucose enzyme sensor, a |
40 |
Pt/Ni/p-Si, water photosplitting, a |
39 |
Pt/PTFE/C, deactivation, a |
225 |
p -Si/SiOx/Pd, H2 photoproduction, a |
103 |
Rh, Rh/Pt, porosity effect on gas evolution, a |
225 |
Ru cyanide/glassy C, hydrazine detection, a |
102 |
Ru modified/Pt, C, stability, a |
226 |
Ru pyrochlore, in fuel cell, a |
164 |
RuO2 + TiO2, MeOH production, a |
225 |
Ru(bpy)32+/Nafion/TiO2, a |
39 |
[Os(bipy)2(PVP)10Cl/Cl/Ag/C, a |
227 |
Electrolysis, chloralkali, a |
38 |
H2O for H2 production, a |
47 |
KOH, by Pt cathodes, HER, a |
37 |
Electrolytes, solid, with Pt electrodes, a |
37 |
(CF3SO2)2CH2, in fuel cell, a |
233 |
Electroplating, high speed, anodes, a |
227 |
Electrowinning, Zn, IrO2-PAN/Ti electrode for, a |
226 |
Emission Control, autocatalyst contamination |
16, 97 |
autocatalyst recovery, symposium |
25 |
automotive catalysts |
206 |
new autocatalyst plant |
71 |
Enamides, asymmetric hydrogenation, a |
232 |
Enamines, chiral, asymmetric allylations, a |
231 |
Energy, solar, conversion, systems, a |
32, 102, 108, 158 |
Enynes, cycloisomerisation, a |
162 |
Epoxjketone, α, β-, hydrogenolysis, a |
107 |
Esters, a |
46, 107, 232 |
Ethane, reactions, a |
41, 228, 230 |
Ethanol, see Alcohols, ethyl |
|
Ethers, cyclic enol, hydrogenations, a |
41 |
Ethylbenzene, catalyst poisoning in production, a |
161 |
Ethylene, adsorption on Pt, a |
98, 229 |
catalytic oxidation, NEMCA effect |
42, 122 |
electroreduction, electrode morphology, a |
225 |
oxidation, in fuel cell, a |
233 |
polymerisation, a |
106 |
Ethyne, hydrogenation, a |
161 |
E.E.C., emission control |
16, 97 |
organopalladium chemistry project |
72 |
Faraday Lecture, 1989, Pt history |
14 |
Films, Cu/Pt, growth, a |
108 |
Ir, for laser writing, a |
110 |
multilayers |
48, 76, 98, 99 |
Pt, porous, in coal gasification plant |
35 |
Pt as substrate for a-Si:H, a |
109 |
PtAs2, formation on GaAs, a |
222 |
Fischer-Tropsch, a |
106 |
Food, testing meter |
24 |
Formaldehyde, production, decomposition, a |
44, 46, 107 |
Formanilide, reaction with aniline, a |
163 |
Formate, photochemical generation, a |
158, 159 |
Formic Acid, formation, decomposition, a |
46, 107 |
oxidations, on Pt(100) + Bi, a |
156, 224, 226 |
Formylation, aryl chlorides, a |
107 |
Fuel Cells, a |
47, 108, 163-164, 233 |
alkaline, a |
164 |
First International Workshop, Tokio |
77 |
for ethylene oxidation, a |
233 |
Grove Symposium |
80 |
H2O2, a |
233 |
in coal gasification |
35 |
MeOH, a |
108, 163 |
phosphoric acid, a |
233 |
SPE, low Pt loadings, a |
163 |
thin film device |
80 |
world review |
26 |
Furnace, Pt lined graphite, a |
104 |
Gas Turbines, protective coatings |
24 |
Gauzes, in NH, oxidation plant |
47, 62 |
Geology, 5th Int. Platinum Sym. |
214 |
Glass, Pb borosilicate + Al2O3, RuO2 solubility, a |
100 |
Glass, a |
233 |
Glasses, metallic, Pd40Ni40P20. relaxation, a |
155 |
Glucose, enzyme electrode, a |
40 |
Glyoxylic Acid, synthesis, a |
157 |
Grove Fuel Cell Symposium |
80 |
Haemoglobin, cyclic voltammetry on Pt, a |
224 |
Helium, release from PdT„, a |
156 |
Heptane, n-, reactions, a |
42, 228, 229 |
Heterocycles, production, a |
232 |
Hexane, reactions, a |
43, 162 |
Hexene, 1-, hydroformylation, hydrogenation, a |
46, 231 |
History, Alfonso Cossa and Pt salts |
215 |
Faraday Lecture |
14 |
Humidity, sensor, a |
104 |
Hydrazine, detection, by Ru cyanide/glassy C electrodes, a |
102 |
Hydrides, for H storage |
142 |
Hydrocarbons, conversions, a |
230 |
dehydrogenation, catalyst synergism, a |
43 |
hydrogenolysis, a |
229 |
synthesis, a |
161 |
Hydroconversion, n-heptane, on Pt, Re, Pt-Re/NaM catalysts, a |
229 |
Hydroformylation, 1-hexene, a |
46 |
alkene, a |
45 |
allyl alcohol, a |
107 |
poly butadiene, a |
232 |
Hydrogen, absorption, in Pd-Gd, a |
155 |
adsorption with CO, a |
45, 229 |
chemisorption, a |
106, 162 |
detector, a |
159 |
electrooxidation, on Pt modified copolymer electrode, a |
156 |
evolution, electrode porosity effect, a |
225 |
from Pd/glassy C microdeposits, a |
225 |
for CO2 reduction, a |
107 |
for hydrocarbon synthesis, a |
161 |
formation from alkanes, a |
39 |
from bacteria, permeation, a |
157 |
HER, on pure Pt cathodes, in KOH, a |
37 |
H/D exchange reactions, benzene on Pt, a |
224 |
in-Pd-rare earth alloy system |
81 |
MeOH synthesis, on Pd/support, a |
43 |
photoevolution, a |
38, 102, 103, 158 |
production, from Rh complexes, a |
227 |
via Na/NaH, a |
108 |
solubility in Pd95Ag5, a |
222 |
sorption, effects on Pd/C, a |
230 |
storage, on metal hydrides |
142 |
Hydrogen Fluoride, impregnated Rh/Al2O3, a |
44 |
Hydrogen Peroxide, production, via fuel cell, a |
163 |
reduction, a |
38 |
Hydrogenation, alkenes, a |
46, 105, 230 |
allyl alcohol, on Pd/C, H effects, a |
230 |
allylbenzene, a |
46 |
asymmetric, enamides, acrylic acids, carboxylic acids, alcohols, a |
232 |
benzene, a |
45, 160, 231 |
butadienes, a |
105, 160 |
buta-1, 3-diene, oct-l-yne, a |
230 |
carboxylic acids, a |
162 |
CO, a |
43, 105, 106, 163, 229 |
cyclohexanone, a |
228 |
cyclohexene, a |
41 |
cycloolefins, cyclic enol ethers, a |
41 |
C2H2, vinylacetylene, a |
43 |
ethyne, a |
161 |
1-hexene, a |
231 |
isoquinolines, quinolines, a |
46 |
styrene, a |
161 |
Hydrogenolysis, alkanes, a |
41, 162 |
α, β-epoxyketone, esters, a |
107 |
ethane, a |
230 |
hydrocarbons, a |
229 |
n-pentane, a |
230 |
Hydronium Cells, a |
38 |
International Temperature Scale-1990, a |
166 |
Ion Beam Mixing, on Pt-Fe alloys, a |
157 |
Ion Chromatography, for Cl− detection, a |
40 |
Iridium, electrodeposition on C fibre, a |
226 |
for H2 photoevolution, a |
103 |
in Ir-Hg film electrodes, a |
40 |
in Ir-SnO2 electrodes, a |
39 |
in Ir/Ti electrode, a |
158 |
in Pd film/glassy C electrode, a |
38 |
in ultramicroelectrodes |
131 |
Ir/GaAs interfacial reactions, a |
223 |
laser writing, a |
110 |
Pb-Ir pyrochlore, air electrode catalyst, a |
226 |
Iridium Alloys, Ir-Al, oxidation, a |
156 |
Iridium Complexes, Ir2(CO)3(dmpm)2, fast O transfer, a |
37 |
macromolecular chelates |
185 |
[Ir(NH3)5H2O](CIO4)3, a |
100 |
Iridium Oxide, IrO2-PAN/Ti anodes, properties, a |
226 |
SIROFs, on wires, planes, morphology, a |
100 |
Iron, impurity in Pt cathodes, a |
37 |
ISFET, Pt-PtO, pH microsensor, a |
165 |
Isocyanate, catalytic production, a |
42, 43, 106 |
movement on Pd/SiO2, a |
43 |
Isomerisation, allylbenzene, a |
46 |
n -butane, a |
228 |
n -pentane, a |
229 |
ITS-90, a |
235 |
Johnson Matthey, Brussels autocatalyst plant |
71 |
"Platinum 1990" |
141 |
Kerr Rotation Spectra, a |
165 |
Kharasch Reactions, on RuCl2[PE-PPh2]3, a |
45 |
Lanthanum, a |
162 |
Laser Writing, a |
109, 110 |
Lead, contamination of autocatalysts |
16, 97 |
Luminescence, Pd(II) porphyrins, for O; detection |
181 |
in [Ru(bpy), (bpy-d8)3−x]2+, a |
103 |
L-Sorbose, oxidation, a |
230 |
Magnetism, a |
165 |
behaviour of PtMnSb/CuMnSb films, a |
98 |
Co/Pd, a |
99 |
in thin films, a |
234 |
perpendicular magnetic anisotropy, in magneto-optical thin films, a |
48, 99 |
Magneto-Optics |
48, 76, 99, 165, 234 |
Manganese, contamination of autocatalysts |
16, 97 |
Medical, blood activating factor inhibitors, a |
232 |
book review |
15 |
conference |
207 |
Cu determination in urine, a |
104 |
Ir oxide neural electrodes |
154 |
physiological O2 detection |
181 |
Pt anti-cancer drugs, review, a |
166 |
surgical implants |
97 |
Medical, a |
48, 110, 166, 235 |
Membranes, Pd, Pt, reactions, a |
47, 225 |
l -Menthol, production |
184 |
Mercury, determination, a |
104 |
Methanation, CO2, a |
44 |
Methane, catalytic oxidation, NEMCA effect |
122 |
ignition at C2H6 boundary on Pt, a |
41 |
oxidation, a |
160, 228 |
polymerisation, a |
108 |
production from CO2 reduction, a |
227 |
reforming by CO2, a |
230 |
Methanol, see Alcohols, methyl |
|
Methyl Esters, a |
161, 163 |
Methyl Methacrylate, polymerisation, a |
45 |
Methylcyclopentane, hydrogenolysis, a |
162 |
Methylnaphthalenes, oxidation, reforming, a |
44, 232 |
Methylnaphthaquinone, formation, a |
232 |
Microelectronics, a |
108, 109, 110 |
Mineralogy, 5th Int. Platinum Sym. |
214 |
Morphology, porous Pt electrodes, a |
38 |
Pt particle, in reforming catalysts, a |
228 |
Pt-Hf oxides, a |
36 |
Naphtha, aromatisation, a |
160 |
NEMCA |
122 |
Neopentane, conversion, a |
162 |
for Pd/Al2O3 characterisation, a |
42 |
Neutrons, thermal detection system, a |
225 |
Neutron-Capture Therapy, cancer treatment, a |
48 |
Nitrogen Oxides, NO, adsorption on Pt-Rh(lOO), a |
98 |
catalytic reduction by CO, a |
105 |
C2H2 to C6H6 conversion, a |
161 |
isocyanate formation, a |
106 |
reactions on Rh, a |
100 |
Nitrogen Oxides, adsorption on polycrystalline Pt, a |
98 |
Non-Faradaic Modification of Catalytic Activity |
122 |
Olefins, oxidation, Wacker Process, a |
44 |
Organic Industrial Waste, destruction |
10, 180 |
Osmium, electroless deposition |
70 |
Osmium Alloys, Os-Rh-W, thermionic emission |
191 |
Osmium Complexes, in polynuclear films, a |
158 |
macromolecular chelates |
185 |
Oxidation, alkanes, a |
41 |
ammonia, industrial plant |
62 |
benzene, a |
43 |
cyclohexane, in fuel cell, a |
108 |
benzyl alcohol, a |
226 |
by phase transfer catalysis |
2 |
CO, by Pd(II) catalyst, a |
45 |
CO, propane, xylene, propene, a |
160 |
cyclic, of superalloys, a |
164 |
cyclohexanol, a |
107 |
ethane, on Pt wire, a |
228 |
ethylene, in a fuel cell, a |
233 |
ethylene, on modified Pt, a |
42 |
Fe-24Cr, prevention by Pd, a |
223 |
HCOOH, on Pt(100)+Bi, a |
224 |
high temperature, IrAl, a |
156 |
Pt-Cu, a |
155 |
Pt-Hf, a |
36 |
resistance, of Pd-W-Cr-Mo, a |
204 |
L-sorbose, on Pd-Bi/D3520 adsorbing resin, a |
230 |
MeOH, electrode deactivation, a |
225 |
on Pt-In-Pb, Au foil electrodes, a |
156 |
MeOH, HCOOH, on Ir/C, a |
226 |
MeOH, HCOOH, H2, a |
156 |
methane, a |
228 |
methylnaphthalene, a |
232 |
olefins, Wacker process, a |
44 |
organochlorines |
180 |
styrene, a |
107 |
Oxygen, atom, transfer by Ir carbonate complex, a |
37 |
detection, in physiological media |
181 |
electroreductions, a |
101, 102 |
evolution on Rh oxide films, a |
157 |
exchange on Pt electrodes, in YSZ cell, a |
101 |
reduction, at Pt-polypyrrole electrodes, a |
157 |
in PEM cell, a |
47 |
Oxygenates, synthesis, a |
106 |
Oxypalladation, alkenes, a |
162 |
Palladium, carbonyl clusters, in NaY zeolites, a |
43 |
carbonyl phosphine clusters, synthesis, a |
224 |
cathodes, in cold fusion studies, a |
225 |
CePdln, specific heat, a |
222 |
clusters, growth, reduction, in zeolite Y, a |
99 |
coatings on metal hydrides |
142 |
D in, electrical resistivity, a |
222 |
foil, H permeation from bacteria, a |
157 |
in alcohol sensor |
130 |
in bifunctional membrane reactor, a |
165 |
in butane, pH detectors, a |
159 |
in contacts, a |
109, 234 |
in corrosion prevention, review |
204 |
in diodes, a |
109 |
in doped SnO 2, for CO detection, a |
40 |
in electroless Cu deposition, a |
110 |
in Fe-24Cr, Fe-40Cr, a |
99, 101, 155, 223 |
in flame composition detector, a |
40 |
in Ir film/glassy C electrode, a |
38 |
in magneto-optical thin films, a |
48, 76, 99, 165 |
in ohmic contacts, a |
109, 166, 234, 235 |
in thermocouples, a |
159 |
LiPdHx, superconductor, a |
166 |
membrane, cyclohexane dehydrogenation, a |
47 |
microprecipitates/glassy C, properties, a |
225 |
Pd thin films/Ta, CO adsorption, a |
222 |
PdCH3, 105PdCH13PduCH3, ESR, a |
222 |
Pd(100)-S, CO adsorption, a |
99 |
Pd-H system |
81 |
Pd-polymer/C electrodes, a |
157 |
Pt-Ti compounds, enthalpies of formation, a |
36 |
Pd/Co, magneto-optics |
48, 76, 99, 165, 234 |
Pd/n-GaSb, Schottky contacts, a |
234 |
Pd+, in TiO2 films, electrocatalysis, a |
102 |
plating baths, a |
159, 166, 229 |
sols, a |
39, 100 |
TeOx-Pd thin films, optical recording media, a |
166 |
Palladium Alloys, Pd-Ag, H solubility in, a |
222 |
pulse-plating, a |
40 |
Pd-Au, reactivity with superconductors, a |
234 |
Pd-Cu, gauzes, in NH3 oxidation plant, a |
47 |
Pd-Gd, H2 absorption in, a |
155 |
Pd-Ni-P, mechanical alloying, a |
223 |
Pd-Ni-P glass, structural relaxation, a |
155 |
Pd-Rare Earths-H, miscibility gap |
81 |
Pd-Te, phase relations |
223 |
Pd-Ti, phase studies, a |
223 |
Pd-U-Si, phases, a |
36 |
Pd-W-Cr-Mo, oxidation resistance |
204 |
Palladium Complexes, effect on Ag halide photography, a |
36 |
K3PdH3, a |
156 |
macromolecular chelates |
185 |
organopalladium studies |
72 |
Pd porphyrins, for physiological O 2 detection |
181 |
tris(hydroxymethyl)phosphine |
74 |
[Pd(CNMe)3] +, photoreducuon, a |
158 |
Palladium Suicides, in high energy physics, a |
227 |
Pd2Si formation, a |
155 |
thin films/Si(III), growth, a |
156 |
Palladium Tritide, He release from, a |
156 |
Paraffin, aromatisation, a |
41 |
Pentane, reactions, a |
229 |
Phase Changes, Pd-Ni-P, glass transition, a |
223 |
Pd-Te system, a |
223 |
Pd-Ti, a |
223 |
Pd-U-Si, a |
36 |
Phase Diagrams, Fe-Rh-S. a |
223 |
Phase Transfer Catalysis |
2 |
Phenol, production, a |
43, 108 |
Phenyl, coupling, in triphenylantimony, a |
231 |
Phosphine Metal Complexes, for catalysis |
74 |
Phosphorescence, in Pd(II) porphyrins, for O2 detection |
181 |
Phosphoric Acid Fuel Cells, electrodes in, a |
47 |
Phosphorus, contamination of autocatalysts |
16, 97 |
Photocatalysis, a |
38-40, 102-103, 158-159, 226-227 |
Photoelectrochemical Cells, a |
39 |
Photography, effect of Pd, Zn ions on Ag halides, a |
36 |
Photolysis, a |
226 |
Plating Baths, Pd, a |
159, 166, 229 |
Pt, a |
229 |
Ru, a |
166 |
Platinum, 5th Int. Sym. |
214 |
additions to aluminide coatings, a |
164 |
anti-cancer drugs, a |
15, 166 |
as a-Si:H diode substrate, a |
109 |
carbonyl phosphine clusters, synthesis, a |
224 |
clusters/lines of Cu film, a |
108 |
coatings for gas turbines |
24 |
compounds, Al2Pt, amorphisation, a |
155 |
CePtln, specific heat, a |
222 |
PtAs2, film formation, a |
222 |
PtGa2, CVD, a |
103 |
Pt2Si formation at Si/Pt interface, a |
99 |
CoNiPt films, a |
98 |
CVD, for laser writing, a |
109 |
effects on photocatalysts, a |
38, 39 |
electrodes, a |
37, 38, 40, 104, 224, 225 |
Faraday Lecture |
14 |
Fe hydroxide layers/Pt, redox processes, a |
157 |
films, discontinuous, on photoanodes, a |
47 |
in coal gasification plant |
35 |
on n-Si photoanodes, a |
226 |
high temperature plating, a |
159 |
in corrosion prevention, review |
204 |
in diodes, a |
109 |
in electrical contacts, a |
234 |
in fuel cells, a |
47, 80, 108, 233 |
in glass industry, a |
233 |
in humidity sensor, a |
104 |
in ohmic contacts, a |
109 |
in pH microsensor, a |
165 |
in photocatalysis, a |
38, 39, 102, 103 |
in SnO2-x, CO sensitive, a |
104 |
in SO2 sensor, a |
159 |
in TEM for imaging molecules, a |
104 |
lining in furnace, a |
104 |
O electroreactions on, a |
101 |
plating bath, for stainless steel, a |
229 |
polycrystalline, NO, NO2 adsorption, a |
98 |
PtMnSb, for crystal growth, a |
233 |
PtMnSb/CuMnSb films, anomalous magnetisation, a |
98 |
Pt(100) + Bi, adsorption studies, a |
224 |
Pt(lll) surface, STM, a |
155 |
Pt + Ru, MeOH oxidation, a |
225 |
Pt-Al thin films, thermal stability, a |
222 |
Pt-H bond, addition to C=C bond, a |
100 |
Pt-SiC system, a |
155 |
Pt/Co, magneto-optics |
48, 76, 165, 234 |
recovery in NH3 oxidation plant, a |
47 |
resistance thermometers, a |
235 |
thin films, a |
36, 98, 164, 166 |
wire, in high temperature NMR probe, a |
235 |
(2×1)Pt(110), C2H4 adsorption, a |
98 |
"Platinum 1990" |
141 |
Platinum Alloys, Cr-Pt-P, corrosion resistant |
84 |
Pt-4Cu, oxidation, a |
155 |
Pt-Fe, ion beam mixed, a |
157 |
Pt-Hf oxides, morphology, a |
36 |
Pt-Rh(100), NO, NO + H adsorption, a |
98 |
Pt-Ru, anodes, for MeOH oxidation, a |
225 |
ZGS-Pt, a |
233 |
Platinum Complexes, anti-cancer, a |
110, 166, 235 |
macromolecular chelates |
185 |
Pt salts, history |
215 |
tris(hydroxymethyl)phosphine |
74 |
(η5-MeCp)PtMe3, for Pt deposition, a |
98 |
[Pt(NH 3)5 OH] (CIO4) 3, a |
100 |
Platinum Metals, conference |
207 |
macromolecular chelates |
185 |
stainless steel alloys |
85, 144, 154 |
Platinum Silicides, a |
155, 165 |
in Schottky diodes, a |
109 |
PtSi, reaction with Cu, a |
222 |
Poisoning, Pd/Al2O3, on styrene hydrogenation, a |
161 |
Pollution Control, aqueous sulphide, a |
158 |
autocatalyst contamination |
16, 97 |
by autocatalysts |
206 |
furnace gas purification catalyst, a |
229 |
new autocatalyst plant |
71 |
organic waste destruction |
10, 180 |
Polybutadiene, hydroformylation, a |
232 |
Polymer Gels, a |
164 |
Polymerisations, methyl methacrylate, C2H4, CH4, a |
45, 106, 108 |
Polymers, from Pt macromolecular chelates |
185 |
Powders, Bi2Ru2O7 formation, a |
223 |
Pd-Ni-P, glass transition, a |
223 |
Presulphidisation, effects on Ru catalysts, a |
106 |
Promoters, alkali nitrates to Pd, Ru catalysts, a |
230, 231 |
La, for Pd catalysts, a |
162 |
CeOx, VOx, MgO, effects on Ru/C, a |
106 |
Propane, hydrogenolysis, a |
229 |
Propyne, CO2 addition, a |
106 |
Pumping, O2+ onto Pt, a |
42 |
Pyridine, in catalyst poisoning, a |
161 |
Pyrone, formation, a |
106 |
Quinolines, Isoquinolines, hydrogenation, a |
46 |
Reactors, Pd membrane, a |
165 |
Recording Materials |
48, 76, 98, 99, 108, 109 |
Red List, toxic chemicals |
10 |
Reduction, by phase transfer catalysis |
2 |
CO2, by Ru complex, a |
107, 227 |
C2H4, electrode morphology, a |
225 |
Pd in Y-zeolite, a |
99 |
Rh(III) chloride, a |
227 |
Reforming, 1-methylnaphthalene, catalyst coking, a |
44 |
methane, a |
230 |
n -heptane, a |
228 |
Resistance Thermometers, a |
110, 166, 235 |
Resistors, RuO2 effect, a |
100 |
Reviews, cathodically modified alloys |
204 |
Japanese catalyst technology |
184 |
Pd-catalysed cycloisomerisation, a |
162 |
Pt anti-cancer drug action, a |
166 |
Rhenium, effect on Pt catalysts, a |
42 |
Rhodium, CO adsorption on, a |
223 |
electrode porosity, a |
225 |
in diodes, a |
109 |
in surgical implants |
97 |
NO reactions, a |
100 |
Rh-Fe-S phase diagram, a |
223 |
Rh2O3, for CO2 reduction, a |
225 |
ultrafine particle dispersions, a |
227 |
Rhodium Alloys, Pt-Rh(100), NO, NO + H adsorption, a |
98 |
ternary and complex, mechanical properties |
192 |
Rhodium Chloride, photoreduction, a |
227 |
Rhodium Complexes, formation with azo compounds, a |
36 |
macromolecular chelates |
185 |
NMe4[Rh(ox)(CO)2], preparation, anisotropy, a |
101 |
RhH2(PPh;)2L+, photophysics, chemistry, a |
227 |
trans -Rh(PMe3)2(CO)Cl, photochemical dehydrogenation, a |
227 |
(η5-C5H5)Rh(CO)2, photochemistry, a |
227 |
[RhCl3(nicH+)3(PF6)3, bacterial activity, a |
48 |
[Rh(NH3)5H2O](ClO4)3, a |
100 |
[Rh6C(CO)13{Au2(PPh3)2}], preparation, structure, a |
100 |
Ruthenium, Bi-Ru-O powder formation, a |
223 |
carbonyl compounds, a |
224 |
colloids, for CO2reduction, a |
227 |
electroless deposition, a |
166 |
in capacitors, a |
166 |
Pb2Ru2O4.5, for O reduction electrodes, a |
164 |
Ru+, in TiO2 films, electrocatalysis, a |
102 |
Ruthenium Alloys, Fe-Cr-Ru, passivation, a |
102 |
Ru-Cr, corrosion in H2SO4, a |
158 |
Ruthenium Complexes, cis -Ru(bipy)2Cl2, for DNA probe, a |
105 |
in polynuclear films on electrodes, a |
158 |
macromolecular chelates |
185 |
Ru(bpy)32+, ECL, a |
39 |
in H2O photoreduction, a |
39 |
(µ-H)3Ru3(µ, -CX)(CO)9, eliminations, a |
224 |
[Ru(bpy)2NOOH]2+, reactions, a |
226 |
[Ru(bpy)x(bpy-d8)3−x]2+, luminescence, a |
103 |
[Ru(Mebpy)3Bz)]n+, photoproperties, a |
39 |
[RuII(bpy)2(bpy-cyclam)NiII]+, a |
156 |
[RU3O(OOCCH3)6L3+, electrode modifiers, a |
226 |
Ruthenium Oxides, RuO2, for CO2 reduction, a |
225 |
standard Gibbs energy of formation, a |
233 |
solubility, in Pb borosilicate glass+Al2O3, a |
l00 |
RuO2.xH2O, thermal studies, a |
36 |
RuO2/Ni, cathode in chloralkali cell, a |
38 |
Schottky Barrier Diodes, a |
109, 165 |
Schottky Contacts, Pd/n-GaSb, properties, a |
234 |
Semiconductors, ISFET, a |
165 |
MESFETs, a |
234 |
p-PtSb2, a |
233 |
Sensors, see Detectors |
|
Silver, electrodeposition, on C-IOs(bipy)2(PVP)10Cl]Cl, a |
227 |
SIROFs, morphology, a |
100, 110 |
SMSI, on Pd/SiO2, a |
230 |
Solar Cells, electrodes, a |
38 |
Solar Energy, conversion, storage, a |
102, 108 |
Solid State Fusion, |
136, 225 |
see also Cold Fusion |
|
Sols, for Ru/SiO2 catalyst preparation, a |
45 |
Ni-Pd, for photoreduction of H2O, a |
39 |
organopalladium, a |
100 |
Pt, Pd, Rh, Ru colloids/ion-exchange resin, a |
41 |
sol-gel glass, with Ir™, a |
103 |
Specific Heat, CePdln, CePtln, low temperature, a |
222 |
Sputtering, a |
48, 98, 99, 100, 101, 105 |
Standard Gibbs Energies of Formation, a |
233 |
Steel, Fe-24Cr, Pd, Mo, V additions, a |
223 |
Fe-40Cr-O.2Pd, acid effect on, a |
101 |
Fe-40Cr-Pd, a |
99, 101, 155 |
Fe-40Cr-Ru, passivation, a |
102 |
stainless, cathodic modification |
154, 204 |
coated with Pd, Pt, a |
229 |
corrosion behaviour, a |
164 |
with PGM additions |
85, 144, 155 |
Structure, micro-, Pt electrodes in solid electrolyte, a |
37 |
Pt(lll) surface, a |
155 |
Pt-Hf oxides, a |
36 |
Styrene, reactions, a |
107, 161 |
Sulphur, catalyst resistance, catalyst effects, a |
44, 228 |
Superalloys, protective coatings |
24, 164 |
Superconductors, LiPdHx, a |
166 |
reactivity with Pd alloys, a |
234 |
Surface Science, Pt catalyst, a |
41, 42 |
Synergism, in Pd-Tc/support catalysts, a |
43 |
Synthesis Gas, for ethylene glycol formation, a |
163 |
for hydrocarbon synthesis, a |
161 |
production, a |
42 |
reaction with small Rh particles, a |
106 |
Tellurium, TeO2+Pd, optical recording media, a |
48 |
Temperature Measurement, a |
110, 159, 166, 235 |
Temperature Scale, 13.8033 K − 961.78°C, a |
166 |
Tetramethylbutane, hydrogenolysis, a |
162 |
Thermocouples, for thermopile, a |
159 |
Pt-Pt(Rh), in NMR detector, a |
235 |
Thermopile, a |
159 |
Thick Films, Pd/γ-Fe2O3, for butane sensor, a |
159 |
Rh oxide, hydrous, for O2 evolution, a |
157 |
Ru polypyrrole, electrode modifiers, a |
226 |
Thin Films, conference |
207 |
CoNiPt, a |
98 |
FeO, PdO, in Fe-40Cr-Pd, a |
99 |
FeTbCo, + Pt, Zr, magneto-optics, a |
48 |
in Pt resistance thermometers, in high magnetic fields, a |
166 |
Ir oxide, morphology, a |
110 |
Ir/GaAs, a |
223 |
Os |
70 |
Pd/Co, multilayers, magneto-optics, a |
99, 234 |
Pt/Co, magneto-optics |
76, 99, 165 |
Pt/Co, PtMnSb, perpendicular magnetic anisotropy, a |
48 |
Pd/Cu, on thermopile, a |
159 |
Pd/InP, a |
166 |
Pd/Ta(110), CO adsorption, a |
222 |
Pd2Si/Si(III), observations, a |
156 |
polypyrrole/Pt/glass, a |
164 |
Pt, by CVD, a |
36, 98 |
Pt, on photoanodes, a |
47 |
PtGa2, CVD, a |
103 |
PtMnSb/CuMnSb, anomalous magnetisation, a |
98 |
Pt-Al, thermal stability, a |
222 |
Pt-C, ultrathin, for TEM imaging, a |
104 |
Pt-SnO-x CO sensitive, a |
104 |
Pt/Co, multilayers, magneto-optics, a |
234 |
Pd/Co, ultrathin, for magneto-optics, a |
48, 76, 165 |
Pt/Fe-24Cr, Pt/Fe-Cr-Y, high temperature oxidation, a |
164 |
Pt/Si, Pt2Si formation, a |
99 |
Ru polypyrrole, electrode modifiers, a |
226 |
SIROFs, morphology, a |
100 |
TeO2+Pd, optical recording media, a |
48 |
TeOx-Pd, crystallisation speeds, a |
166 |
TiO2 + Pd+, Ru+, electrocatalytic activity, a |
102 |
Thiophene, in catalyst poisoning, a |
161 |
Transistors, ISFET, MESFETs, a |
165, 234 |
Triglycerides, D-labelled, a |
163 |
Tris(hydroxymethyl)phosphine, metal complexes |
74 |
Tritium, a |
101 |
electrochemical production, a |
225 |
Vinylacetylene, hyrogenation, a |
43 |
Vinylations |
2, 232 |
Vinylidene Carbonate, cyclic, formation, a |
232 |
Wacker Process, a |
44, 162 |
Water, photosplitting, a |
38-40, 103, 226 |
Water Gas Shift Reaction, a |
46, 107 |
ZGS-Platinum Alloys, a |
233 |