Cadmium acetate chloride hydroxide

Various experimental conditions required for CBD on ITO and Sn02 substrates have been identified [337-343]. The chemical bath was based on ammonium acetate (0.5-10 M), ammonium hydroxide (1-6%), cadmium acetate or cadmium chloride (0.1-10 M), and thiourea (0.1-10" M), containing different concentrations and types heteropolyacids (10" -10" M). The deposition temperature varied from 50 to 95 °C and the deposition time from 10 minutes to 6 hours. The electrode surface area was 8cml The annealing temperature was varied from 200 to 500 C. The effect of the heteropolyacid on the morphology and the chemical composition of the films and on the CdS/CdTe heteroj unction parameters FF. t ) was... [Pg.335]

Cadmium chloride solution Cadmium nitrate Cadmium sulfate Calcium hydroxide, sat. Calcium hydroxide, 20% Calcium sulfate, sat. Cellosolve acetate Chloric acid, 20%... [Pg.635]

The reaction of acetophenone oxime with acetylene (100°C, 3 h) is well catalyzed by all alkali metal hydroxides (taken in 10%-30% from the oxime weight), but Ca(OH)2 is inactive nnder these conditions [160]. Tetrabutylammonium hydroxide exerts weak catalytic action on the reaction only at harsher conditions (120 C). Potassium, zinc, and cadmium acetates as well as zinc, copper (I and II), and cobalt chlorides do not show catalytic activity in this reaction (starting acetophenone oxime is recovered almost completely [160]), though several cations of the aforementioned salts are known [95,162] to be catalysts of direct vinylation of NH-heterocycles with acetylene. [Pg.6]

Rubidium metal alloys with the other alkaU metals, the alkaline-earth metals, antimony, bismuth, gold, and mercury. Rubidium forms double haUde salts with antimony, bismuth, cadmium, cobalt, copper, iron, lead, manganese, mercury, nickel, thorium, and 2iac. These complexes are generally water iasoluble and not hygroscopic. The soluble mbidium compounds are acetate, bromide, carbonate, chloride, chromate, fluoride, formate, hydroxide, iodide. [Pg.278]

E. P. Alvarez 2 found that the pemitrates react with soln. of lead acetate (white precipitate), silver nitrate (white precipitate), mercurous nitrate (white precipitate with rapid decomposition), mercuric chloride (red precipitate), copper sulphate (blue precipitate), zinc and cadmium sulphates (white precipitate), bismuth nitrate (white precipitate), gold chloride (slight effervescence and escape of oxygen), manganous chloride (pink precipitate), nickelous chloride or sulphate (greenish-white precipitate), cobaltous nitrate and chloride (pink precipitate), ferrous sulphate (green or bluish-green precipitate), ferric chloride (red ferric hydroxide), and alkaline earth chlorides (white precipitates). The precipitates are all per-salts of the bases in question. [Pg.384]

Bromic acid Bromine, anhydrous Butadiene Butane Butyl acetate Butyl chloride Butyl ether Butyl lactate Butyl mercaptan Butyl chloride Cadmium chloride Cadmium nitrate Cadmium sulfate Cadmium sulfide Calcium acetate Calcium arsenate Calcium bicarbonate Calcium bisulfide Calcium hydrosulfide Calcium carbide Calcium carbonate Calcium chlorate Calcium chloride Calcium chromate Calcium fluoride Calcium hydroxide Calcium h) pochlorite Calcium nitrate Calcium oxide Calcium peroxide Calcium phosphate Calcium stearate Calcium sulfate Calcium sulfide Calcium sulfite Cane sugar liquors Capric acid Carbamate Carbon bisulfide Carbon dioxide Carbon disulfide Carbon fluorides Carbon monoxide Caustic lime... [Pg.551]

PTFE increases the decomposition temperature of cadmium oxalate trihy-drate. Moreover, the products of cadmium complex degradation, in turn, increase the temperature at which an intensive degradation of PTFE begins. The thermal decomposition of the highly dispersed copper formate leads to the formation of a metal-polymer composition (20-34% Cu). The maximum on the nanoparticles granulometric composition curve corresponds to 4nm. No chemical interaction between the components was observed. The decomposition of a fine dispersion of palladium hydroxide in polyvinyl chloride (PVC) results in spatial structures with highly dispersed Pd particles (S = 26 m g ) in the nodes. This process increases in the temperature required for complete dehydrochlorination of PVC. The thermolysis of cobalt acetate in the presence of PS, PAA, and poly(methyl vinyl ketone) proceeds... [Pg.127]

Ammonium nitrate Ammonium phosphate Ammonium sulfate Ammonium sulfide Barium carbonate Barium chloride Barium hydroxide Barium nitrate Barium sulfate Barium sulfide Battery acid Cadmium chloride Cadmium cyanide Cadmium sulfate Calcium acetate Calcium bromide Calcium carbonate Calcium chloride Calcium fluoride... [Pg.1009]