Yajing Tang, Xiangnan Sun, Peikun Zhang, Bingkun Tian, Peng Xu, Ying Jiang, Jinping Zhang, Zhiyuan Yan, Xiaoming Zhao, Zhuhua Zhang, Wanlin Guo
ACS Applied Materials & Interfaces ( IF 8.3 ) Pub Date : 2025-02-20
Abstract
Forming a low-dimensional (LD) capping layer over the surface of three-dimensional (3D) perovskites has been a typical approach for stabilizing perovskite solar cells (PSCs). However, the performance of treated PSCs is still limited by inefficient charge transfer across the LD/3D interfaces. Here, we realized a 1D capping layer over the perovskite surface via post-treatment with a conjugated quinolinamine (QA) halide salt. In contrast to 2D perovskites, this unique configuration enables charge transfer between inorganic slabs and adjacent QA spacers in the capping layer, resulting in a reduced dielectric confinement effect and enhanced carrier mobility. In this way, the hole extraction from bulk perovskite is facilitated while non-radiative recombination is suppressed at the 1D/3D interface. As a result, we realized 1D/3D PSCs with a power conversion efficiency of 24.8%, along with negligible efficiency loss after 3500 h operation under the maximum power point tracking on 1 Sun illumination. Furthermore, our cells maintained over 95% initial efficiency after rigorous 1200 h damp-heat testing at high temperature (85°C) and high humidity (85%) conditions, positioning our PSCs among the most stable 1D/3D PSCs.
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