Photoluminescence emission in arsenic sulfide nanocomposite

Q1 Physics and Astronomy Journal of Non-Crystalline Solids: X Pub Date : 2023-03-01 DOI:10.1016/j.nocx.2023.100174

George Alkhalil , Julia A. Burunkova , Maria Stepanova , Andrey Veniaminov , Boglarka Donczo , Mate Szarka , Sandor Kokenyesi

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Abstract

Synthesis and characterization of the optical properties of materials especially at a nanoscale, is considered as important tasks for the engineering of photonic devices and systems. In this paper we study the photoluminescence of new nanocomposite material consisting of arsenic sulfide doped in porous glasses and the effect of photoinduced structural transformations on it. The nanocomposite was obtained via chemical deposition method in which arsenic sulfide powder was dissolved in an amine solution and then clean pieces of porous glass were impregnated for 2 days in the solution. Strong photoluminescence signal was observed in the samples when excited with lasers with excitation wavelengths of 405 and 532 nm. Also, the effect of laser irradiation on the photoluminescence of the samples was studied using confocal microscope with two different operating lasers 405 and 514 nm. It was observed that laser irradiation influences photoluminescence differently depending on the irradiation wavelength.

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硫化砷纳米复合材料的光致发光研究

材料光学性质的合成和表征，特别是在纳米尺度上，被认为是光子器件和系统工程的重要任务。本文研究了在多孔玻璃中掺杂硫化砷的新型纳米复合材料的光致发光特性以及光致结构转变对其的影响。采用化学沉积法，将硫化砷粉末溶解在胺溶液中，然后将干净的多孔玻璃片浸渍在溶液中2天，得到纳米复合材料。当激发波长为405 nm和532 nm的激光激发时，样品有较强的光致发光信号。在共聚焦显微镜下，采用405 nm和514 nm两种不同的工作激光，研究了激光照射对样品光致发光的影响。观察到激光照射对光致发光的影响随照射波长的不同而不同。

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