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Limiting Perovskite Solar Cell Performance by Heterogeneous Carrier Extraction
Authors:Dr. Wenming Tian  Rongrong Cui  Dr. Jing Leng  Junxue Liu  Yajuan Li  Chunyi Zhao  Prof. Dr. Jun Zhang  Prof. Dr. Weiqiao Deng  Prof. Dr. Tianquan Lian  Prof. Dr. Shengye Jin
Affiliation:1. State Key Laboratory of Molecular Reaction Dynamics, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Collaborative Innovation Center of Chemistry for Energy Materials (iChEM), Dalian, China;2. Department of Chemistry, China University of Petroleum, Qingdao, China;3. Department of Chemistry, Emory Univeristy, Atlanta, GA, USA
Abstract:Although the power conversion efficiency of perovskite solar cells has improved rapidly, a rational path for further improvement remains unclear. The effect of large morphological heterogeneity of polycrystalline perovskite films on their device performance by photoluminescence (PL) microscopy has now been studied. Contrary to the common belief on the deleterious effect of morphological heterogeneity on carrier lifetimes and diffusivities, in neat CH3NH3PbI3(Cl) polycrystalline perovskite films, the local (intra‐grain) carrier diffusivities in different grains are all surprisingly high (1.5 to 3.3 cm2 s?1; comparable to bulk single‐crystals), and the local carrier lifetimes are long (ca. 200 ns) and surprisingly homogenous among grains, and uniform across grain boundary and interior. However, there is a large heterogeneity of carrier extraction efficiency at the perovskite grain–electrode interface. Improving homogeneity at perovskite grain–electrode contacts is thus a promising direction for improving the performance of perovskite thin‐film solar cells.
Keywords:charge carriers  grain boundaries  perovskites  photoluminescence mapping  solar cells
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