1 October 1990 Characterization of quantum-confined CuCl microcrystals in a glassy matrix
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Abstract
Quantum confinement effects of semiconductor microcrystallites (CuC1) embedded in a glassy (aluminoborosilicate) matrix are of current interest due to their exceptional nonlinear optical properties. The precipitation of microcrystals occurs upon heat-treatment of a glass in a supersaturated solution. The time and/or temperature of heat-treatment and the degree of supersaturation of the solution determines the size of the microcrystals. This paper characterizes the microcrystals using TEM when the heat-treatment conditions are varied. Room temperature ESR measurements were performed in order to determine the ratio of Cu2 to Cu'' in the glass at various compositions before heat-treatment. Low temperature optical absorption data were jobtained to study the quantum confinement and the effect of varying the microcrystal size. I.
© (1990) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Jacqueline A. Ruller, Jacqueline A. Ruller, David A. Dutt, David A. Dutt, Glen M. Williams, Glen M. Williams, E. Joseph Friebele, E. Joseph Friebele, Brian L. Justus, Brian L. Justus, Anthony J. Campillo, Anthony J. Campillo, } "Characterization of quantum-confined CuCl microcrystals in a glassy matrix", Proc. SPIE 1327, Properties and Characteristics of Optical Glass II, (1 October 1990); doi: 10.1117/12.22525; https://doi.org/10.1117/12.22525
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