A holistic approach to interface stabilization for efficient perovskite solar modules with over 2,000-hour operational stability

接口(物质) 光伏系统 钙钛矿(结构) 可扩展性 相容性(地球化学) 材料科学 能量转换效率 光电子学 化学工程 纳米技术 计算机科学 工艺工程 电气工程 工程类 复合材料 操作系统 毛细管作用 毛细管数
作者
Zonghao Liu,Longbin Qiu,Luis K. Ono,Sisi He,Zhanhao Hu,Maowei Jiang,Guoqing Tong,Zhifang Wu,Yan Jiang,Dae‐Yong Son,Yangyang Dang,Saïd Kazaoui,Yabing Qi
出处
期刊:Nature Energy [Nature Portfolio]
卷期号:5 (8): 596-604 被引量:393
标识
DOI:10.1038/s41560-020-0653-2
摘要

The upscaling of perovskite solar cells to module scale and long-term stability have been recognized as the most important challenges for the commercialization of this emerging photovoltaic technology. In a perovskite solar module, each interface within the device contributes to the efficiency and stability of the module. Here, we employed a holistic interface stabilization strategy by modifying all the relevant layers and interfaces, namely the perovskite layer, charge transporting layers and device encapsulation, to improve the efficiency and stability of perovskite solar modules. The treatments were selected for their compatibility with low-temperature scalable processing and the module scribing steps. Our unencapsulated perovskite solar modules achieved a reverse-scan efficiency of 16.6% for a designated area of 22.4 cm2. The encapsulated perovskite solar modules, which show efficiencies similar to the unencapsulated one, retained approximately 86% of the initial performance after continuous operation for 2,000 h under AM1.5G light illumination, which translates into a T90 lifetime (the time over which the device efficiency reduces to 90% of its initial value) of 1,570 h and an estimated T80 lifetime (the time over which the device efficiency reduces to 80% of its initial value) of 2,680 h. The upscaling of layer treatments and processing that afford high efficiency and stability in small-area perovskite solar cells remains challenging. Liu et al. show how the efficiency and stability of perovskite modules can be improved using an integrated approach to interface and layer engineering.
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