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b0b体育app下载:Operationally stable perovskite solar modules enabled by vapor-phase fluoride treatment

时间:2024-09-02来源:国际前沿科学研究院点击:213

Xiaoming Zhao , Peikun Zhang , Tianjun Liu  , Bingkun Tian  , Ying Jiang , Jinping Zhang , Yajing Tang  , 

Bowen Li , Minmin Xue  , Wei Zhang  , Zhuhua Zhang , Wanlin Guo 

Science
25 Jul 2024
Vol 385Issue 6707


Abstract

The ever-increasing power conversion efficiency of perovskite solar cells has illuminated the future of the photovoltaic industry, but the development of commercial devices is hampered by their poor stability. In this study, we report a scalable stabilization method using vapor-phase fluoride treatment, which achieves 18.1%-efficient solar modules (228 square centimeters) with accelerated aging–projected T80 lifetimes (time to 80% of efficiency remaining) of 43,000 ± 9000 hours under 1-sun illumination at 30°C. The high stability results from vapor-enabled homogeneous fluorine passivation over large-area perovskite surfaces, suppressing defect formation energy and ion diffusion. The extracted degradation activation energy of 0.61 electron volts for solar modules is comparable to that of most reported stable cells, which indicates that modules are not inherently less stable than cells and closes the cell-to-module stability gap.


DOI: 10.1126/science.adn9453


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