Role of Alizarin red-S-NaLS-Ascorbic acid System in Solar Photogalvanic Performance and Storage

IF 0.6 Q4 CHEMISTRY, MULTIDISCIPLINARY

Oriental Journal Of Chemistry Pub Date : 2023-08-30 DOI:10.13005/ojc/390413

Birama Ram, Jai Lalita, K. R. Genwa

引用次数: 0

Abstract

The aim of research work was to convert and store the photogalvanic energy by alizarin red-s - NaLS - ascorbic acid. The photogalvanic cells are based on photoelectrochemical nature. This study is better over reductant system i.e., ascorbic acid. The obtained results are comparatively better for sustainable application. M/5000 solution of alizarin red-S, M/1000 solution of NaLS and M/1000 solution of ascorbic acid were used for experimental observation. The fill factor (FF) and conversion efficiency (CE) were calculated for alizarin red-S - NaLS - ascorbic acid system and results were 0.2731 and 1.8970 %, respectively. The electrical outcome was relevant to power, open- circuit voltage, and short circuit current for alizarin red-S - NaLS - ascorbic acid system in solar photogalvanic performance and storage. These results are 197.29 µW, 1075 mV, 672 µA, respectively. The photo-excitation of alizarin red-S molecules was studied in solar performance and storage for photoelectrochemical process.

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茜素红-S-NaLS-抗坏血酸体系在太阳光电池性能和储存中的作用

研究工作的目的是利用茜素红- NaLS -抗坏血酸转化和储存光能。光原电池是基于光电化学性质的。本研究对还原剂体系，即抗坏血酸进行了较好的研究。所得结果相对较好，适合可持续应用。采用M/5000茜素红- s溶液、M/1000 NaLS溶液和M/1000抗坏血酸溶液进行实验观察。计算茜素红- s - NaLS -抗坏血酸体系的填充因子(FF)和转化效率(CE)，结果分别为0.2731 %和1.8970%。茜素红- s - NaLS -抗坏血酸体系在太阳能光电性能和存储中的电学结果与功率、开路电压和短路电流有关。这些结果分别为197.29µW, 1075 mV, 672µA。研究了茜素红- s分子的光激发在太阳能性能和光电化学储存方面的应用。

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

Oriental Journal Of Chemistry CHEMISTRY, MULTIDISCIPLINARY-

自引率

20.00%

发文量

172

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