电池(电)
储能
材料科学
自放电
阴极
钾离子电池
电极
锌
氧化还原
水溶液
化学能
化学工程
纳米技术
离子
化学
功率(物理)
锂离子电池
有机化学
冶金
物理化学
工程类
物理
量子力学
作者
Yan Zhang,Fang Wan,Shuo Huang,Shuai Wang,Zhiqiang Niu,Jun Chen
标识
DOI:10.1038/s41467-020-16039-5
摘要
Self-charging power systems integrating energy harvesting technologies and batteries are attracting extensive attention in energy technologies. However, the conventional integrated systems are highly dependent on the availability of the energy sources and generally possess complicated configuration. Herein, we develop chemically self-charging aqueous zinc-ion batteries with a simplified two-electrode configuration based on CaV6O16·3H2O electrode. Such system possesses the capability of energy harvesting, conversion and storage simultaneously. It can be chemically self-recharged by the spontaneous redox reaction between the discharged cathode and oxygen from the ambient environment. Chemically self-recharged zinc-ion batteries display an initial open-circuit voltage of about 1.05 V and a considerable discharge capacity of about 239 mAh g-1, indicating the excellent self-rechargeability. Impressively, such chemically self-charging zinc-ion batteries can also work well at chemical or/and galvanostatic charging hybrid modes. This work not only provides a route to design chemically self-charging energy storage, but also broadens the horizons of aqueous zinc-ion batteries.
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