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Efficient and Hole‐Transporting‐Layer‐Free CsPbI 2 Br Planar Heterojunction Perovskite Solar Cells through Rubidium Passivation

2019; Wiley; Volume: 12; Issue: 5 Linguagem: Inglês

10.1002/cssc.201802690

1864-564X

Yixin Guo, Fei Zhao, Jiahua Tao, Jinchun Jiang, Jungang Zhang, Jianping Yang, Zhigao Hu, Junhao Chu,

Chalcogenide Semiconductor Thin Films

Abstract Recently, inorganic perovskite CsPbI 2 Br has gained much attention for photovoltaic applications owing to its excellent thermal stability. However, low device performance and high open‐voltage loss, which are the result of its intrinsic trap states, are hindering its progress. Herein, planar CsPbI 2 Br solar cells with enhanced performance and stability were demonstrated by incorporating rubidium (Rb) cations. The Rb‐doped CsPbI 2 Br film exhibited excellent crystallinity, pinhole‐free surface morphology, and enhanced optical absorbance. By using low‐cost carbon electrodes to replace the organic hole‐transportation layer and metal electrode, an excellent efficiency of 12 % was achieved with a stabilized efficiency of over 11 % owing to the suppressed trap states and recombination in the CsPbI 2 Br film. Additionally, the annealing temperature for the Rb‐doped CsPbI 2 Br film could be as low as 150 °C with a comparable high efficiency over 11 %, which is one of the best efficiencies reported for hole‐transporting‐layer‐free all‐inorganic perovskite solar cells. These results could provide new opportunities for high‐performance and stable inorganic CsPbI 2 Br solar cells by employing A‐site cation substitution.