钝化
材料科学
钙钛矿(结构)
能量转换效率
光电子学
偶极子
重组
表面能
化学物理
接口(物质)
量子隧道
光伏系统
工作(物理)
电荷(物理)
表面工程
纳米技术
传输效率
功率(物理)
太阳能电池效率
能量转换
作者
Xiangyang Li,Ruochen Liu,Qi Huang,Zhongtao Duan,Kongxiang Wang,Yaqing Li,Yu Su,Tianxiang Hu,Haiting Zhou,Haoyang Zhang,Fengxian Xie
标识
DOI:10.1021/acsami.5c19171
摘要
) is introduced into the perovskite/PCBM interface, forming dipoles to further passivate defects, reduce nonradiative recombination, and improve energy level alignment. The rationality of orthogonal bimolecular passivation is proven by theoretical calculations. The SIE strategy not only suppresses nonradiative recombination but also optimizes the surface morphology and energy level alignment at the interface. As a result, the MA-free inverted perovskite solar cells achieve a remarkable power conversion efficiency of 24.85%, and the stability is significantly enhanced by retaining 84.92% of the initial efficiency after 2000 h of MPP tracking under room-temperature conditions. The work underscores the potential of a synergistic passivation approach for advancing the performance and stability of PSCs.
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