Study on photogalvanics
for sunlight power conversion and storage using the combination of bromocresol purple,
sodium lauryl sulphate and ascorbic acid
Birama Ram, Prajapat Madhuri and Genwa K.R.
Res. J. Chem. Environ.; Vol. 29(9); 126-133;
doi: https://doi.org/10.25303/299rjce1260133; (2025)
Abstract
Conducting an extensive study of the current outcomes of PG system appears to be
of good interest to the scientific community. In an effort to meet the global goal
of creating a pollution-free environment for sustainable development, this study
reports better PG cell results. A present cell with a Bromocresol Purple (BCP)+NaLS+AA
system was used to analyse the different solar properties. By changing a number
of the PG cell's characteristics, BCP investigated the primary impacts of solar
energy. Better electrical results from renewable energy have been the goal of the
research and the PG cell has effectively shown the system's efficiency in an experimental
process.
For BCP+NaLS+AA system, Photopotential, photocurrent, maximum photocurrent and equ.
photocurrent was measured 918.00 mV, 564 μA, 618.00 μA and 564 μA, respectively.
The PG cell's fill factor, conversion efficiency and performance were 160.00 minutes,
0.3937 and 2.3446% respectively, according to the data. The results showed that
the PG system had undergone a more comprehensive and innovative study.
