Synthesis and characterization of mehtylammonium bismuth iodide via solvent engineering

Nigerian Journal of Technology Pub Date : 2023-08-11 DOI:10.4314/njt.v42i2.10

B. Abdulkareem

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Abstract

Hybrid organic–inorganic halide perovskites (OIHPs) are an emerging class of photovoltaic materials that have gained tremendous attention in the field of optoelectronics. This work aims to investigate the characteristics of bismuth-based halide perovskite via solvent engineering for solar cell application. A bismuth-based organo-inorganic perovskite was synthesized and characterized for solar cell application via solvent engineering using Gamma Butyrolactone (GBL) as the based solvent and enhanced with Methylamine (MA) and acetonitrile (ACN). A solution processing facile method was adopted in the synthesis of the perovskite. The solvent engineering aims to tune its band gap and a remarkable band gap of 1.58eV which is within the range of an ideal band gap (1.5-1.6) required for solar cell application. The XRD micrograph exhibited several narrow sharp peaks which indicated crystallinity formation of the synthesized sample with 86% crystallinity. The FESEM/EDS micrograph indicated nature of the formed crystals and the chemical composition of the sample. A multilayer heptagonal crystal was observed. The TGA result showed that the sample is thermally stable at a temperature of 200oC before degradation occurred.

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溶剂工程法合成碘化铋甲胺及其表征

有机-无机卤化物钙钛矿（OIHP）是一类新兴的光伏材料，在光电子领域引起了极大的关注。本工作旨在通过溶剂工程研究铋基卤化物钙钛矿在太阳能电池应用中的特性。以γ-丁内酯（GBL）为基体溶剂，用甲胺（MA）和乙腈（ACN）增强，通过溶剂工程合成了一种铋基有机-无机钙钛矿，并对其进行了表征。采用溶液处理的简便方法合成了钙钛矿。溶剂工程旨在调整其带隙和1.58eV的显著带隙，该带隙在太阳能电池应用所需的理想带隙（1.5-1.6）的范围内。XRD显微照片显示出几个窄而尖锐的峰，这表明合成样品形成了结晶度为86%的结晶度。FESEM/EDS显微照片显示了形成的晶体的性质和样品的化学成分。观察到一种多层七边形晶体。TGA结果表明，在降解发生之前，样品在200℃的温度下是热稳定的。

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