Litcius/Paper detail

Inhibited Crack Development by Compressive Strain in Perovskite Solar Cells with Improved Mechanical Stability

Guizhou Yuan, Wenqiang Xie, Qizhen Song, Sai Ma, Yue Ma, Congbo Shi, Mengqi Xiao, Fengtao Pei, Xiuxiu Niu, Ying Zhang, Jie Dou, Cheng Zhu, Yang Bai, Yiliang Wu, Hao Wang, Qunbo Fan, Qi Chen

2023Advanced Materials112 citationsDOI

Abstract

Abstract Metal halide perovskites are promising as next‐generation photovoltaic materials, but stability issues are still a huge obstacle to their commercialization. Here, the formation and evolution of cracks in perovskite films during thermal cycling, which affect their mechanical stability, are investigated. Compressive strain is employed to suppress cracks and delamination by in situ formed polymers with low elastic modulus during crystal growth. The resultant devices pass the thermal‐cycling qualification (IEC61215:2016), retaining 95% of the initial power conversion efficiency (PCE) and compressive strain after 230 cycles. Meanwhile, the p–i–n devices deliver PCEs of 23.91% (0.0805 cm 2 ) and 23.27% (1 cm 2 ). The findings shed light on strain engineering with respect to their evolution, which enables mechanically stable perovskite solar cells.

Topics & Concepts

Materials sciencePerovskite (structure)Composite materialDelamination (geology)Photovoltaic systemCompressive strengthTemperature cyclingThermal stabilityStrain (injury)ThermalChemical engineeringEngineeringMeteorologyBiologyPaleontologyTectonicsSubductionInternal medicinePhysicsMedicineEcologyPerovskite Materials and ApplicationsConducting polymers and applicationsOrganic Electronics and Photovoltaics