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… Show more

“…Study of electrical output in photogalvanic cell for solar energy conversion and storage (1) and high-performance dye-sensitized solar cells (2) were systematically investigated in the photo chemical properties. Nature-based dye-sensitized solar cells (3,4) and solar energy conversion https://www.indjst.org/ through brilliant yellow+NaLS+AA system (5) have been systematically studied. Hybrid photoelectrodes for photoelectrochemical energy conversion (6) , Photocatalysis for thermochromic materials (7) , EDTA+TB+NaLS based work for electrical output (8) , Innovation for prospective energy source (9) , and Mixed surfactant for photogalvanic effect (10) were studied.…”

Study of Photogalvanic Effect by using Marigold Flower as Natural Photosensitizer, Xylose as Reductant and Tween 80 as Surfactant for Solar Radiation Conversion and Storage

“…Study of electrical output in photogalvanic cell for solar energy conversion and storage (1) and high-performance dye-sensitized solar cells (2) were systematically investigated in the photo chemical properties. Nature-based dye-sensitized solar cells (3,4) and solar energy conversion https://www.indjst.org/ through brilliant yellow+NaLS+AA system (5) have been systematically studied. Hybrid photoelectrodes for photoelectrochemical energy conversion (6) , Photocatalysis for thermochromic materials (7) , EDTA+TB+NaLS based work for electrical output (8) , Innovation for prospective energy source (9) , and Mixed surfactant for photogalvanic effect (10) were studied.…”

Study of Photogalvanic Effect by using Marigold Flower as Natural Photosensitizer, Xylose as Reductant and Tween 80 as Surfactant for Solar Radiation Conversion and Storage