材料科学
离子液体
双功能
钝化
硫氰酸盐
光伏
结晶
钙钛矿(结构)
卤化物
成核
化学工程
甲脒
串联
能量转换效率
晶体生长
相(物质)
无机化学
离子键合
溴化物
分子
纳米晶
盐(化学)
纳米技术
烷基
作者
Qiumin Kong,Dan Ouyang,Yue Wang,Yuqiang Liu,Zhishan Bo
出处
期刊:Small
[Wiley]
日期:2026-04-17
卷期号:22 (31): e73439-e73439
摘要
ABSTRACT Wide‐bandgap perovskite solar cells (WBG PSCs) are key to high‐efficiency tandem photovoltaics but suffer from severe open‐circuit voltage ( V OC ) loss, primarily due to non‐radiative recombination losses induced by high bromine content. Here, we demonstrate a bifunctional ionic liquid (ILs) additive, 1,3‐di(cyanoethyl)‐imidazolium thiocyanate (ILSCN), engineered to mitigate multiple recombination loss pathways synergistically in wide‐bandgap PSCs. The ILSCN molecule features cooperative cation‐anion functionality: the thiocyanate anions effectively fill halide vacancies while the ‐CN group on functionalized cations coordinate with uncoordinated Pb 2+ sites. This dual‐action not only modulates crystal growth orientation and enhances nucleation density but also suppresses halide migration and non‐radiative recombination. As a result, 1.83‐eV WBG PSCs incorporating ILSCN achieve a significantly improved V OC of 1.35 V and a stabilized power conversion efficiency (PCE) of 18.4%. Especially, the devices retain 84% of their initial efficiency after nearly 500 h of continuous illumination. This work demonstrates a facile synergistic ionic liquid strategy in defect passivation, crystallization control, and overcoming the performance limitations of WBG perovskite photovoltaics.
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