Banana flower extract based ZnO nanoparticle in dye-sensitized solar

Abstract: Banana flowers are the source of anthocyanins that donate electrons to the active component of 2%. ZnO has high exciton binding and high electron mobility of 155-165 m2V−1s−1 compared to TiO2. In this study, the peak absorbance without tartaric acid 100:0% was at 451 nm and the addition of tartaric acid for 6% concentration 95/5 (v/v) experienced a wavelength shift of 543. The highest absorbance peak was at the dye solution with the variation in methanol and tartaric acid of 90:10% that was 545 nm. The additio… Show more

“…The dye-sensitized solar cell (DSSC) stands out as an attempt to replicate the photosynthesis process [2]. These devices' increased power efficiency makes them more affordable options as compared to conventional energy sources [3]. Conventional solar cell fabricates interfacing window material with an absorber material.…”

SYNTHESIS AND CHARACTERIZATION OF DYE‑SENSITIZED SOLAR CELLS UTILIZING SEMICONDUCTOR NANO‑COMPOSITES EXTRACTED FROM SILICA (SiO2) EXTRACTED FROM RICE HUSK

“…The dye-sensitized solar cell (DSSC) stands out as an attempt to replicate the photosynthesis process [2]. These devices' increased power efficiency makes them more affordable options as compared to conventional energy sources [3]. Conventional solar cell fabricates interfacing window material with an absorber material.…”

SYNTHESIS AND CHARACTERIZATION OF DYE‑SENSITIZED SOLAR CELLS UTILIZING SEMICONDUCTOR NANO‑COMPOSITES EXTRACTED FROM SILICA (SiO2) EXTRACTED FROM RICE HUSK