Innovative Study of the Photogalvanics for Solar Energy Conversion and Storage Through Brilliant Yellow + NaLS + Ascorbic Acid System

Abstract

Objective: A thorough analysis of the electrical output of PG cells has not piqued the research community's curiosity. The current study reports better findings of PG cell in order to accomplish this objective of providing the globe with pollution-free nature for sustainable development. The purpose of the study is to improve the conversion of solar energy into electricity and its storage utilizing PG cells for higher electrical output. Methods: The PG cell set-up consists of two electrodes, a digital pH metre, a resistance key, a carbon pot, and a micro-ammeter. Investigations into the specifically designed H-shaped PG cell were done for better electrical outcomes. The various solar parameters in a PG cell with a Brilliant yellow (BY) + NaLS + Ascorbic acid (AA) system was examined. The main effects of solar energy were examined by adjusting the PG cell's various parameters. For the PG cell, distilled water, alkali, and a mixture of surfactant, reductant, and dye were combined in a 25 ml solution. The PG cell has successfully experimentally demonstrated the efficient system that was the research's desired aim in terms of better electrical outcomes from renewable energy. Findings: For the BY+NaLS+AA, the observed photopotential, maximum photocurrent and fill factor were 924.00 mV and 630.00 µA, 0.3422, respectively. The PG cell Performance and conversion efficacy were found to be 140.00 minutes and 2.1562%, respectively. Novelty: As reported results (in BY+NaLS+AA system) are mentioned that work has new value to the existing literature. The obtained results are better innovative study of the PG for solar energy conversion and storage. Keywords: Brilliant yellow, NaLS, Ascorbic acid, Photogalvanics, Photocurrent