Thermal stability and recrystallization of semiconductor nanostructured sulfides and sulfide solid solutions

Add time:08/01/2019    Source:sciencedirect.com

Metal sulfide semiconductor nanostructures represent the most promising group of nanostructured materials with excellent optical and electrical properties for such applications as photoelectrochemical cells, photocells, photoconductors, infrared detectors, nonvolatile memory devices and resistive switches. Much attention is drawn to nanostructured sulfides PbS, Ag2S, SnS, and CdS of lead, silver, tin and cadmium, and also sulfide solid solutions. As a rule, microelectronic devices, photocells, photoconductors and infrared detectors, containing a nanostructured sulfides, operate in air at elevated temperatures (up to ∼400–450 K), at which the growth and variation in the phase composition of sulfide nanoparticles may take place, leading to the degradation of their electrical and optical properties. The uncontrolled growth of sulfide quantum dots and nanoparticles at high temperatures results in the instability and degradation of properties of electronic devices and compositions with nanostructured sulfides. In present paper, the data on the recrystallization and thermal stability of phase composition and particle size of semiconductor nanostructured PbS, Ag2S, SnS, and CdS sulfides and sulfide solid solutions CdxPb1-xS are considered. For the first time, the regions of thermal stability of sulfide nanoparticle sizes are determined.

We also recommend Trading Suppliers and Manufacturers of titanium sulfide (cas 12039-07-5). Pls Click Website Link as below: cas 12039-07-5 suppliers

Prev:Impacts of iron oxide and titanium dioxide nanoparticles on biogas production: Hydrogen sulfide mitigation, process stability, and prospective challenges
Next:The search for exceptions in the highly enantioselective titanium catalysed oxidation of aryl benzyl sulfides)