Collaborative Passivation for Dual Charge Transporting Layers Based on 4‐(chloromethyl)benzonitrile Additive toward Efficient and Stable Inverted Perovskite Solar Cells
Xingyu Li, Songbo Li, Weiting Liu, Pengpeng Dong, Guoyuan Zheng, Yong Peng, Shuyi Mo, Nan Tian, Disheng Yao, Fei Long
Abstract
Abstract Poor carrier transport capacity and numerous surface defects of charge transporting layers (CTLs), coupled with misalignment of energy levels between perovskites and CTLs, impact photoelectric conversion efficiency (PCE) of inverted perovskite solar cells (PSCs) profoundly. Herein, a collaborative passivation strategy is proposed based on 4‐(chloromethyl) benzonitrile (CBN) as a solution additive for fabrication of both [6,6]‐phenyl‐C61‐butyric acid methylester (PCBM) and poly(triarylamine) (PTAA) CTLs. This additive can improve wettability of PTAA and reduce the agglomeration of PCBM particles, which enhance the PCE and device stability of the PSCs. As a result, a PCE exceeding 20% with a remarkable short circuit current of 23.9 mA cm −2 , and an improved fill factor of 81% is obtained for the CBN‐ modified inverted PSCs. Devices maintain 80% and 70% of the initial PCE after storage under 30% and 85% humidity ambient conditions for 1000 h without encapsulation, as well as negligible light state PCE loss. This strategy demonstrates feasibility of the additive engineering to improve interfacial contact between the CTLs and perovskites for fabrication of efficient and stable inverted PSCs.