Study of Electrical Output in Photogalvanic Cell for Solar Energy Conversion and Storage: Lauryl Glucoside-Tartrazine-D-Fructose System

Objective: The present study is focusing on the role of surfactant in photogalvanic cells and how photons from sunlight can be used as a driving force for energy solar conversion storage. Methods: An H shaped cell was designed electrical output transformations. Electrical circuit proposed by using dye, reductant, surfactant, NaOH, double distilled water (DDW), multi-meter, calomel electrode, 250 k roistered, saturated platinum carbon pot, resistance key, digital pH meter, microammeter, 200 W tungsten bulb. A detailed reaction mechanism (PG Cell) generating photocurrent has been studied. PG Cells were studied transformation system. Findings: different parameters via photocurrent, photopotential, efficiency, fill factor performance. above values are follows: 388.0 □A, 1141.0 mV, 0.7995%, 0.5389 129.0 minutes. also observed tartrazine, D-Fructose lauryl glucoside systems. Potential at power point, open circuit, point (pp) current short obtained 1133 1523 435.321 544mA. Novelty: an emerging field research storage energy. This employs glucoside-tartrazine-D-fructose system better which eco-friendly natural dye results performance (t1=2) reduction cost (INR 9531.38 / USD 125) its commercial viability. Keywords: Photogalvanic cells; conversion; storage; glucoside; tartrazine