电池(电)
化学能
能量转换
材料科学
太阳能
储能
能量转换效率
锂(药物)
纳米技术
光电子学
化学
电气工程
工程类
功率(物理)
内分泌学
物理
有机化学
热力学
医学
量子力学
作者
Peng Chen,Guoran Li,Tian‐Tian Li,Xueping Gao
出处
期刊:Advanced Science
[Wiley]
日期:2019-05-24
卷期号:6 (15): 1900620-1900620
被引量:100
标识
DOI:10.1002/advs.201900620
摘要
Abstract Solar cells and rechargeable batteries are two key technologies for energy conversion and storage in modern society. Here, an integrated solar‐driven rechargeable lithium–sulfur battery system using a joint carbon electrode in one structure unit is proposed. Specifically, three perovskite solar cells are assembled serially in a single substrate to photocharge a high energy lithium–sulfur (Li–S) battery, accompanied by direct conversion of the solar energy to chemical energy. In the subsequent discharge process, the chemical energy stored in the Li–S battery is further converted to electrical energy. Therefore, the newly designed battery is capable of achieving solar‐to‐chemical energy conversion under solar‐driven conditions, and subsequently delivering electrical energy from the stored chemical energy. With an optimized structure design, a high overall energy conversion efficiency of 5.14% is realized for the integrated battery. Moreover, owing to the self‐adjusting photocharge advantage, the battery system can retain high specific capacity up to 762.4 mAh g −1 under a high photocharge rate within 30 min, showing an effective photocharging feature.
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