阳极
锂(药物)
离子
材料科学
电池(电)
储能
太阳能
光电子学
锂离子电池
能量转换效率
能量转换
工程物理
纳米技术
化学
电极
电气工程
物理
物理化学
工程类
有机化学
热力学
内分泌学
功率(物理)
医学
量子力学
作者
Yan Wen,Jie Wang,Qing Hu,Jing‐jing Fu,Mohamed K. Albolkany,Tian Zhang,Xiao Lu,Fei Ye,Bo Liu
出处
期刊:Nano Research
[Springer Science+Business Media]
日期:2023-09-11
卷期号:17 (4): 2655-2662
被引量:24
标识
DOI:10.1007/s12274-023-6062-7
摘要
New generation of lithium-ion batteries (LIBs) integrating solar energy conversion and storage is emerging, as they could solve the fluctuation problem in the utilization of solar energy. Photo-rechargeable lithium-ion batteries (PR-LIBs) are ideal devices for such target, in which solar energy is converted into electricity and stored in LIB. In order to achieve the high performance of PR-LIB, it is crucial to develop dual-function electrode materials that can synergistically capture solar energy and store lithium. Herein, we present photo-rechargeable lithium-ion batteries using defective black TiO2 as photoanode prepared by lithium reduction. The photoanode exhibits excellent photo response in full solar spectrum with a capacity enhancement of 46.4% under illumination, corresponding to the energy conversion efficiency of 4.4% at the current density of 1 A·g−1. When illumination is applied at 20 mA·g−1, the battery capacity increases from ∼ 230 in dark to ∼ 349 mAh·g−1 at the first cycle, and then stabilizes at 310 mAh·g−1, approaching the theoretical value of 335 mAh·g−1 of TiO2 electrode material. This finding provides thoughts for breaking the capacity limitations in TiO2 and paves the way for powering LIBs by solar illumination.
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