Cadmium particles

Zhang DL, Hutchinson JL, Cantor B (1994) Melting behavior of cadmium particles embedded in an eduminum-matrix. J Mater Sci 29 2147-2151... 

Surface mobility can explain the experiments of Ditch-bum (32) on the deposition by sputtering of cadmium films on glass and metal surfaces. He found that when the cadmium particles were directed on to the surfaces through fine slits, no deposit could be observed if the width of the slit was below 5 X 10 mm., a phenomenon which he attributed to a loss by surface diffusion of particles which could not be sufficiently rapidly replaced by condensation. 

Cadmium (particle diameter = 10 xm)/PTFE (Fluon 169B) (79/21 wt%) undergoes an exothermic reaction with PTFE at 410 °C in a DSC. Samples heated to 500°C comprise a black residue composed from CdF2 and carbon and partly unreacted PTFE [27]. 

The difference between sintered plate cells and pocket-type cells with regard to memory may be connected with the fact that pocket cadmium active material contains an addition of finely divided iron compounds. This addition is made to prolong life by preventing recrystallization and agglomeration of cadmium particles. It seems probable that the iron addition will not only prevent the normal tendency for crystal growth of the cadmium material, but will also eliminate the particle size redistribution that causes the memory effect. 

A very different nucleation scheme by Grieser and co-workers employs ultrasonic irradiation of salt solutions to create H- and OH- radicals in solution [73]. These radicals proceed to nucleate growth of quantum-sized (Q-state) particles of cadmium sqlfide. Similar initiation has been used for polymer latices [74]. 

Lasers act as sources and sometimes as amplifiers of coherent k—uv radiation. Excitation in lasers is provided by external particle or photon pump sources. The high energy densities requked to create inverted populations often involve plasma formation. Certain plasmas, eg, cadmium, are produced by small electric discharges, which act as laser sources and amplifiers (77). Efforts that were dkected to the improvement of the energy conversion efficiencies at longer wavelengths and the demonstration of an x-ray laser in plasma media were successful (78). 

Hazards of Production. In most zinc mines, zinc is present as the sulfide and coexists with other minerals, especiaHy lead, copper, and cadmium. Therefore, the escape of zinc from mines and mills is accompanied by these other often more toxic materials. Mining and concentrating, usuaHy by flotations, does not present any unusual hazards to personnel. Atmospheric poHution is of Httle consequence at mine sites, but considerable effort is required to flocculate and settle fine ore particles, which would find their way into receiving waters. 

The formation of semiconductor nanoparticles and related stmctures exhibiting quantum confinement within LB films has been pmsued vigorously. In 1986, the use of the metal ions in LB films as reactants for the synthesis of nanoscale phases of materials was described [167]. Silver particles, 1-2 mn in size, were produced by the treatment of silver be-henate LB films with hydrazine vapor. The reaction of LB films of metal salts (Cd, Ag, Cu, Zn, Ni, and Pb ) of behenic acid with H2S was mentioned. The use of HCl, HBr, or HI was noted as a route to metal halide particles. In 1988, nanoparticles of CdS in the Q-state size range (below 5 mn) were prepared inside LB films of cadmium arachi-... 

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