Journal
MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING
Volume 148, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.mssp.2022.106717
Keywords
beta-In2S3; Annealing; Raman analysis; SEM; Bang gap energy; Conductance
Categories
Funding
- Deanship of Scientific Research at Umm Al-Qura University [22UQU4331172DSR02]
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Thin-film-based solar cells are being widely investigated as a sustainable energy source, and this study explores the effect of annealing temperature on the physical properties of In2S3 and its implications for photovoltaic devices. The results show the formation of indium oxide at high annealing temperatures, and the annealing temperature also affects the band gap energy and conductivity of the samples.
Due to its significant expansion as a sustainable energy source, the investigation of thin-film-based solar cells is a very important field of research among materials scientists. Nowadays, CdTe based photovoltaic devices are developed using indium sulfide (In2S3) as potential material. This study reports the effect of the annealing temperature, up to 450 degrees C, on In2S3 physical properties, and the consequences for the use of the In2S3 in photovoltaic devices. Structural analysis on indium sulfide pellets, made from commercial indium sulfide powder, reveals that all the samples are polycrystalline, crystallizing in the tetragonal structure (beta phase). Above the annealing temperature of 400 degrees C, indium oxide (In2O3) is also detected. Optical absorption, in the visible and near-infrared region, is close to zero for all the samples (as-prepared and annealed). The measured band gap energy decreases with annealing temperature up to 350 degrees C, and increases above this temperature. The conductance of the samples increases with increasing measured temperature, confirming the semiconductor behavior. This work provides an example of the potential application of beta-In2S3 , in the powder form, for environmental rehabilitation.
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