High-member low-dimensional Sn-based perovskite solar cells

Sn-based perovskites are promising thin-film photovoltaic materials for their ideal bandgap and the eco-friendliness of Sn, but the performance of Sn-based perovskite solar cells is hindered by the short carrier diffusion length and large defect density in nominally-synthesized Sn-based perovskite f...

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Veröffentlicht in:Science China. Chemistry 2023-02, Vol.66 (2), p.459-465
Hauptverfasser: Li, Hansheng, Zang, Zihao, Wei, Qi, Jiang, Xianyuan, Ma, Mingyu, Xing, Zengshan, Wang, Jingtian, Yu, Danni, Wang, Fei, Zhou, Wenjia, Wong, Kam Sing, Chow, Philip C. Y., Zhou, Yuanyuan, Ning, Zhijun
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Sprache:eng
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Zusammenfassung:Sn-based perovskites are promising thin-film photovoltaic materials for their ideal bandgap and the eco-friendliness of Sn, but the performance of Sn-based perovskite solar cells is hindered by the short carrier diffusion length and large defect density in nominally-synthesized Sn-based perovskite films. Herein we demonstrate that a long carrier diffusion length is achievable in quasi-2D Sn-based perovskite films consisting of high-member low-dimensional Ruddlesden—Popper (RP) phases with a preferred crystal orientation distribution. The key to the film synthesis is the use of a molecular additive formed by phenylethy-lammonium cations and optimally mixed halide—pseudohalide anions, which favorably tailors the quasi-2D Sn-based perovskite crystallization kinetics. The high-member RP film structure effectively enhances device short-circuit current density, giving rise to an increased power conversion efficiency (PCE) of 14.6%. The resulting device demonstrates a near-unity shelf stability upon 1,000 h in nitrogen. A high reproductivity is also achieved with a count of 50 devices showing PCEs within a narrow range from minimum 13.0% to maximum 14.6%.
ISSN:1674-7291
1869-1870
DOI:10.1007/s11426-022-1489-8