Quantum confinement effects of semiconducting microcrystallites in glass

Abstract

The optical properties of glasses containing a small amount of thermally developed CdSe x S1−x microcrystalline phase are studied with emphasis on quantum confinement effects exhibited at small crystallite size. Optical absorption,photoluminescence, x‐ray diffraction, and transmission electron microscopy are used to examine microcrystallites as a function of composition and development. Results are presented for a series of commercially available CorningR filter glasses with a selenium mole fraction in the range 0.28≤x≤0.74, as well as for several experimental glasses in which the average microcrystallite diameters range from 30 to 80 Å. Optical effects observed in the experimental glasses that are due to electron and hole confinement are n o t present in the filter glasses considered; variations in optical properties of the filters are due to changes in stoichiometry of the CdSe x S1−x mixed anion system. A brief discussion of other microcrystalline phases in glass is also presented. These microcrystallites show room‐temperature optical absorptionstructure analogous to bulk crystal excitons; the temperature dependence of this structure is contrasted with that resulting from quantum confinement in CdSe x S1−x glasses.