Multifunctional ionic liquid boosts the efficiency of hole transport layer-free carbon-based perovskite solar cells beyond 20%
Zhiyang Ju , Wenyan Zhao , Jionghua Wu , Hongshi Li , Yumin Liu , Wenying Jiang , Tiankai Zhang , Chuanjin Tian , Shaojian Fu , Chang-an Wang , Zhipeng Xie
FlexMat ›› 2026, Vol. 3 ›› Issue (1) : 78 -92.
The planar triple-layer hole transport layer (HTL)-free carbon-based perovskite solar cells have the advantages of low cost and high stability, but their low efficiency hinders the commercialization process. Here, a dual regulation strategy for bulk defects and interface defects has been developed. After selecting dimethylamine (DMA) as the fixed cation and selecting the anion site (I−, Br−, Cl−, HCOO−), an ionic liquid additive, DMAFo, was synthesized, achieving multiple functions such as energy level regulation, removal of residual PbI2 at the buried interface, retarding crystallization through the intermediate phase DMAPbI(3−x)HCOOx, filling halide vacancy defects, and releasing residual stress. This effectively reduces energy loss during carrier transport and obtains higher-quality perovskite films. Under the synergistic effect of DMA+ and HCOO−, both bulk defects and interface defects in the perovskite film were simultaneously addressed. The device prepared using DMAFo as an additive achieved the best device efficiency of 20.77%, and after continuous maximum power point tracking for 1200 h, the device efficiency remained almost unchanged, demonstrating excellent operational stability.
carbon electrode / defects engineering / ionic liquid / perovskite solar cells / residual stress control
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2026 The Author(s). FlexMat published by John Wiley & Sons Australia, Ltd on behalf of Nanjing University of Posts & Telecommunications.
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