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Tensile strain regulation via grain boundary buffering for flexible perovskite solar cells

Zhiyang Xu, Runnan Yu, Qianglong Lv, Haoran Jia, Qiang Guo, Tangyue Xue, R.Z. Wang, Huaizhi Gao, Erjun Zhou, Zhan’ao Tan

2025Nature Communications5 citationsDOIOpen Access PDF

Abstract

Flexible perovskite solar cells show promise in photovoltaics due to their high energy-to-power efficiency and adaptability, making them a top choice for third-generation thin-film solar applications. However, the inherent defect and mechanical fragility of polycrystalline films posed a challenge that limited their photovoltaic and mechanical performance. Here, the nanomechanical properties of perovskite films are regulated to varying degrees by introducing metal chelates. Specifically, the metal chelates are embedded into the grain boundaries of perovskite, thereby creating a uniformly distributed tensile strain field. Through nanomechanical investigations of the tensile strain-induced modifications in the microstructure and photovoltaic performance of perovskite films, the flexible perovskite solar cells achieve a power conversion efficiency of 24.47%. This regulation strategy not only focuses on the nanomechanical properties of perovskite films but also reveals the correlation between the physical properties and the mechanical flexibility of perovskite solar cells. The residual strain and modulus of polycrystalline films often limit the photovoltaic and mechanical performance of flexible perovskite solar cells. Here, the authors introduce metal chelates for a uniformly distributed tensile strain field, achieving a maximum efficiency of 24.47%.

Topics & Concepts

Perovskite (structure)Materials scienceGrain boundaryPhotovoltaic systemCrystalliteUltimate tensile strengthPhotovoltaicsMicrostructureEnergy conversion efficiencyGrain sizeComposite materialPerovskite solar cellNanotechnologyFlexibility (engineering)MetalTensile testingOptoelectronicsThin filmPerovskite Materials and ApplicationsAdvanced Sensor and Energy Harvesting MaterialsChemical and Physical Properties of Materials
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