期刊
CHEMICAL ENGINEERING JOURNAL
卷 468, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2023.143835
关键词
Zinc; Photo-battery; Graphene; Molybdenum oxide; Storage
A stand-alone, low-cost non-aqueous photo-rechargeable zinc ion battery configuration is proposed, which integrates energy conversion and storage in a single device, minimizing space, materials, and cost. The battery achieves photo-charging and discharge capacities of 104 mAh g-1 and 240 mAh g-1 respectively under biased mode, and -75 mAh g-1 under unbiased mode. It has a power conversion efficiency of 4.03% and a cycle life of 200 cycles, making it a promising candidate for commercialization.
A stand-alone, low-cost non-aqueous photo-rechargeable zinc ion battery configuration is presented. The photo -battery integrates the functions of energy conversion and storage in a single device thus minimizing space and material requirements as well as cost. The cell is based on a photocathode with TiO2 and MoO3-nanorods (NRs) as the storage layers, with additional roles of electron transport layer and photosensitizer for TiO2 and MoO3 respectively. Photoactive beetroot (BT) dye and Cl-doped graphene quantum dots (GQDs) were also incorporated therein to yield the TiO2/BT/Cl-GQDs/MoO3-NRs composite photocathode for broad spectral utilization. Under irradiance, the BT dye, Cl-GQDs and MoO3 undergo electron-hole separation, channel the electrons to the external circuit via TiO2 through aligned energy levels and simultaneously charge the battery to-1 V, without the application of any external bias or current. The photo-charging and discharge capacities of the photo-battery: TiO2/BT/Cl-GQDs/MoO3-NRs/Zn2+/Zn-AC in the biased mode under an applied current density of 21 mA g-1 and under 1 sun irradiance (100 mW cm-2, AM 1.5 G) are 104 mAh g-1 and 240 mAh g-1 respectively. The photo-charging capacity under 1 sun irradiance in the unbiased mode is-75 mAh g-1. A Zn-activated carbon composite (derived from lemon pieces) as the anode electro-catalyzes the reduction of Zn2+ during photo -charging, leading to a power conversion efficiency of 4.03 % under one sun illumination. This has a cycle life of 200 cycles and offers a constant photocurrent of 8.3 mA cm-2 with a hold time of more than 100 s under irradiance which can easily charge any small electronic device. It is an economically viable configuration with huge technological potential for possible commercialization.
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