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A positive correlation between local photocurrent and grain size in a perovskite solar cell
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作者 Xiaoxia Zhao Zhiyong Wang +5 位作者 Wenming Tian Xianchang Yan Yantao Shi Yudi Wang Zhonggao Sun Shengye Jin 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2022年第9期8-13,I0001,共7页
Developing an interplay between the local morphological character and its local photovoltaic(PV)parameters in a perovskite thin film is essential for guiding the construction of highly-efficient perovskite solar cells... Developing an interplay between the local morphological character and its local photovoltaic(PV)parameters in a perovskite thin film is essential for guiding the construction of highly-efficient perovskite solar cells(PSCs). To achieve a higher PSC performance, great efforts have been devoted to the growth of larger perovskite grains;however, how the gain size can influence the PSC performance in a working device remains unclear. Herein, using laser-scanned confocal microscopy coupled with a photocurrent detection module, we realize local photocurrent, photoluminescence(PL) intensity and PL lifetime mappings directly in a working PSC. For perovskite grains of various sizes(from ~500 nm to a few micrometers), their local photocurrent exhibit a statically positive correlation with the grain size, but anti-correlated with the grain’s local PL intensity. This result suggests that a larger perovskite grain likely has fewer defects and more importantly better interfacial contact with the charge collection layers and thus leads to higher charge collection efficiency, and the optimum grain size is found to be ≥2 μm.Our result provides important guidance to the growth and control of perovskite microstructures toward the further improvement of PSC performance. 展开更多
关键词 Photocurrent mapping photoluminescence mapping Perovskite solar cell Grain size
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