八面体
钙钛矿(结构)
图层(电子)
材料科学
能量转换效率
相(物质)
各向异性
结构稳定性
化学工程
结晶学
化学物理
纳米技术
光电子学
化学
光学
晶体结构
有机化学
工程类
物理
结构工程
作者
Peng Xu,Zhenhu Zhang,Jinping Zhang,Jin Wang,Xin Wang,Tianjun Liu,Wei Zhang,Xiangnan Sun,Xiaoming Zhao
出处
期刊:Small
[Wiley]
日期:2025-08-25
卷期号:21 (41): e08224-e08224
标识
DOI:10.1002/smll.202508224
摘要
2D perovskites as interfacial modifiers have demonstrated potential for improving the stability of perovskite solar cells (PSCs); however, 2D structures based on flexible long-chain cations often lead to a high degree of octahedral distortions and larger interlayer spacing. These factors hinder efficient charge extraction between the perovskite and charge transport layers and affect the stability of 2D/3D devices. Here, imidazolyl spacers with rigid ring structures are employed as interfacial modifiers. The spacers of different molecular rigidity influence their anisotropic orientation with [PbI6]4- octahedral, leading to reduced crystal distortion while maintaining compatible octahedral layer spacing, which facilitates efficient hole extraction from bulk perovskite to the surface layer, and increases structural stability of 2D perovskite. As a result, the optimized 2D/3D PSCs achieve power conversion efficiencies of 26% for unit cells (0.16 cm2) and 22.4% for solar modules (38.9 cm2). Moreover, these spacers enhance the phase stability of the 3D perovskite and effectively mitigate phase degradation, enabling the device to retain 98% of its initial efficiency after 2000 h of continuous operation under 1 sun illumination at 40 °C. These results suggest the potential of imidazolium-based interfacial modifiers in achieving efficient and stable 2D/3D PSCs.
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