Improving Photocatalytic Performance through Incorporation of Various Cations in A-site of Double Perovskite Material (Cs0.50MA0.50)2SnI6 for Degradation of Methylene Blue Dye Pollutant under Visible Light Irradiation

Q4 Chemistry Asian Journal of Chemistry Pub Date : 2024-03-30 DOI:10.14233/ajchem.2024.31201
R. Raja, J. S. Manoah, M. Vijayan, R. Ganesan
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Abstract

In this article, undoped double perovskite materials like caesium tin iodide (Cs2SnI6), methyl ammonium tin iodide [MA2SnI6: MA denotes CH3NH3+] and mixed double perovskite material [(Cs0.50MA0.50)2SnI6] were synthesized using a wet chemical methodology. The crystal structure confirmation, optical properties, thermal properties, surface morphology and presence of elemental composition of the prepared samples using XRD, UV, TGA and FESEM-EDAX analyses were thoroughly investigated. The synthesized materials were employed as photocatalysts to degrade methylene blue dye within 120 min under visible light. An increase in the optical properties of the synthesized double perovskite materials was confirmed by ultraviolet (UV) analysis, which showed that the introduction of various cations into the perovskite material at the A-site shifted the photoluminescence (PL) emission peak to the red. TGA results demonstrated that (Cs0.50MA0.50)2SnI6 has greater thermal stability, which was confirmed by the presence of 43% of sample despite the temperature reaching almost 870 ºC. Doped double perovskite material (Cs0.50MA0.50)2SnI6 exhibited increased photocatalytic activity, with methylene blue dye degradation efficiency attaining 89% after 120 min of visible light irradiation, which is greater than pure double perovskite materials. The photocatalytic degradation of methylene blue dye is mostly facilitated by hydroxyl radicals and holes, according to a radical trapping experiment that we conducted by employing different scavengers. The results of the current work showed that doped double perovskite materials [(Cs0.50MA0.50)2SnI6] exhibit high thermal stability as well as higher photocatalytic activity than pure double perovskite materials. A possible photocatalytic reaction process is also diagrammatically using the band positions of double perovskite materials found using Mott-Schottky plots , which confirms that the synthesized double perovskite material has an N-type semiconductor nature.
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通过在双包晶材料 (Cs0.50MA0.50)2SnI6 的 A 位掺入各种阳离子提高光催化性能,从而在可见光照射下降解亚甲基蓝染料污染物
本文采用湿化学方法合成了碘化铯锡(Cs2SnI6)、甲基碘化铵锡[MA2SnI6:MA 表示 CH3NH3+]等未掺杂双包晶材料和混合双包晶材料[(Cs0.50MA0.50)2SnI6]。通过 XRD、UV、TGA 和 FESEM-EDAX 分析,对所制备样品的晶体结构确认、光学性能、热性能、表面形貌和元素组成进行了深入研究。合成的材料被用作光催化剂,在可见光下 120 分钟内降解亚甲基蓝染料。紫外线(UV)分析表明,在过氧化物材料的 A 位上引入各种阳离子后,光致发光(PL)发射峰向红色移动,从而证实了合成的双过氧化物材料光学性能的提高。热重分析结果表明,(Cs0.50MA0.50)2SnI6 具有更高的热稳定性,这一点在温度达到近 870 ºC 时仍有 43% 的样品存在得到了证实。掺杂双包晶材料(Cs0.50MA0.50)2SnI6 显示出更高的光催化活性,在可见光照射 120 分钟后,亚甲基蓝染料的降解效率达到 89%,高于纯双包晶材料。根据我们采用不同清除剂进行的自由基捕获实验,亚甲基蓝染料的光催化降解主要由羟自由基和空穴促进。目前的研究结果表明,与纯双包晶材料相比,掺杂双包晶材料[(Cs0.50MA0.50)2SnI6]具有较高的热稳定性和光催化活性。利用莫特-肖特基图(Mott-Schottky plots)发现的双包晶材料的能带位置,还绘制了可能的光催化反应过程图,从而证实合成的双包晶材料具有 N 型半导体性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Asian Journal of Chemistry
Asian Journal of Chemistry 化学-化学综合
CiteScore
0.80
自引率
0.00%
发文量
229
审稿时长
4 months
期刊介绍: Information not localized
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