The aim of this study is to harness and store solar energy through Indigo Carmine dye–
Formic acid photogalvanic cells. The photogalvanic cells based on photo-sensitizer Indigo …

Solar energy is gradually becoming integrated into households, holding the potential to
address energy requirements through technologies like PV cells. Ongoing research is …

The photogalvanic (PG) cells involve a change in the electrode potential by photochemical
processes along with the diffusion of ionic species through the bulk electrolyte. The PG cells …

With the rapid commercialization of wind and solar power generation, the need of power
storage capacity is gaining importance. The photogalvanic cells as described in the present …

Crude aqueous extract of Beetroot has been used as a natural photo-sensitizer for
photogalvanic solar power and storage. Beet's root extract-based photogalvanic cell shows …

Photo-galvanic cell is a photochemical cell device whose performance depends on the
combination of several factors like dye and reductant concentrations, dye stability, pH, light …

In this work, the performance of dye‐sensitized solar cells (DSSCs) has been investigated
using the extracts from Murraya koenigii, Plectranthus amboinicus, and Coriandrum sativum …

The photogalvanic (PG) solar cell technique discussed in the present study has potential for
both solar energy conversion and solar power storage at a time. The harvesting of the solar …

All promising solar cell devices including the photo-galvanic cells have to be sustainable
and durable in nature to meet the long-term energy needs of society. Photo-galvanic cells …

In the present work, the photogalvanic cells have been studied with respect to the photo-
stability and the long-term use of the electrolyte based on crude aqueous spinach extract …