Redox active and electrically conducting cobalt telluride Nanorods/Poly(1-aminoanthraquinone) composite and photoactive Rose Bengal dye based photo-supercapacitor

Das, Aparajita and Deshagani, Sathish and M, Deepa and et al, . (2020) Redox active and electrically conducting cobalt telluride Nanorods/Poly(1-aminoanthraquinone) composite and photoactive Rose Bengal dye based photo-supercapacitor. Applied Materials Today, 19. ISSN 2352-9407

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Abstract

Photo-supercapacitor (PSC) allows concurrent harvesting and storage of solar energy in a single device. Cost-effective and a highly scalable novel configuration for a PSC comprising of Rose Bengal (RB) dye/cadmium sulfide (CdS)/titania (TiO2) as the photovoltaic electrode and CoTe nanorods/poly(1-aminoanthraquinone) (PAAQ) composite/carbon fabric (C-fabric) as the counter electrode (CE) combined with PAAQ/C-fabric as the symmetric supercapacitor electrodes, is presented. The two low cost photosensitizers (RB dye and CdS) permit broad utilization of the solar spectrum (blue-green and to some extent, red photons as well), and the CoTe/PAAQ composite offers a high electrocatalytic activity for polysulfide reduction, resulting in a power conversion efficiency of 8.25%. The composite as a CE outperforms the individual CEs of CoTe and PAAQ. When the illuminated solar cell is electrically connected to the PAAQ//PAAQ supercapacitor, the latter is charged to 0.77 V and it acquires an areal specific capacitance of 79.2 m F cm−2 under a galvanostatic discharge current density of 0.07 mA cm−2. This PSC shows an overall photo-electrical conversion and storage efficiency of 4.68% and it serves as a promising solution for integrating solar conversion and storage in a single device.

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IITH Creators:
IITH CreatorsORCiD
M, DeepaUNSPECIFIED
Item Type: Article
Subjects: Chemistry
Divisions: Department of Chemistry
Depositing User: Team Library
Date Deposited: 21 Feb 2020 05:29
Last Modified: 21 Feb 2020 05:29
URI: http://raiithold.iith.ac.in/id/eprint/7446
Publisher URL: https://doi.org/10.1016/j.apmt.2020.100592
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