Your search keyword '"Yao, Xinpeng"' showing total 54 results

51. Tailoring type-II all-in-one buried interface for 1.635V-voltage, all-inorganic CsPbBr3perovskite solar cells

Author

Yao, Xinpeng, He, Benlin, Zhu, Jingwei, Ti, Junjie, Cui, Lifang, Tui, Rui, Wei, Meng, Chen, Haiyan, Duan, Jialong, Duan, Yanyan, and Tang, Qunwei

Abstract

Precise manipulation on buried interface of perovskite film highly determines the photovoltaic performance of perovskite solar cells (PSCs). Herein, we demonstrate a SnO2-SnS2heterojunction nanocrystal as an efficient electron transfer material to heal the defective interface for planar all-inorganic CsPbBr3PSCs. Arising from the matched lattice distance of SnS2with SnO2and CsPbBr3, an all-in-one SnO2-SnS2-CsPbBr3interface is fabricated, in which SnS2plays a role of “bridge” to connect incompatible interface. Consequently, the charge recombination loss is minimized owing to the Type-II band alignment and epitaxial growth induced defect reduction, achieving a remarkable efficiency of 10.72% with a high open-circuit voltage of 1.635V. Considering the high tolerance to high humidity (80%) for 700 h and high temperature (80 °C) over 30 days, these preliminary results can provide a new perspective for the rational design of ideal charge transfer materials to improve the efficiency and stability of PSCs.

Published

2022

52. Constitutive androstane receptor promoted- hepatomegaly and liver regeneration is partially via yes-associated protein activation

Author

Gao, Yue, primary, Fan, Shicheng, additional, Li, Hua, additional, Jiang, Yiming, additional, Yao, Xinpeng, additional, Zhu, Shuguang, additional, Yang, Xiao, additional, Wang, Ruimin, additional, Tian, Jianing, additional, Gonzalez, Frank, additional, Huang, Min, additional, and BI, Huichang, additional

53. Constitutive androstane receptor promoted- hepatomegaly and liver regeneration is partially via yes-associated protein activation

Author

BI, Huichang, primary, Gao, Yue, additional, Fan, Shicheng, additional, Li, Hua, additional, Jiang, Yiming, additional, Yao, Xinpeng, additional, Zhu, Shuguang, additional, Yang, Xiao, additional, Wang, Ruimin, additional, Tian, Jianing, additional, Gonzalez, Frank, additional, and Huang, Min, additional

54. Phase Control of Cs-Pb-Br Derivatives to Suppress 0D Cs 4 PbBr 6 for High-Efficiency and Stable All-Inorganic CsPbBr 3 Perovskite Solar Cells.

Author

Zhu J, He B, Yao X, Chen H, Duan Y, Duan J, and Tang Q

Abstract

The precise phase control of Cs-Pb-Br derivatives from 3D CsPbBr 3 to 0D Cs 4 PbBr 6 highly determines the photovoltaic performance of all-inorganic CsPbBr 3 perovskite solar cells (PSCs). Herein, the preferred phase conversion from precursor to Cs-Pb-Br derivatives is revealed by theoretically calculating the Gibbs free energies (∆G) of various phase conversion processes, allowing for a simplified multi-step solution-processable spin-coating method to hinder the formation of detrimental 0D Cs 4 PbBr 6 phase and enhance the photovoltaic performance of a PSC because of its large exciton binding energy, which is regarded as a recombination center. By further accelerating the interfacial charge extraction with a novel 2D transition metal dichalcogenide ReSe 2 , the hole-free CsPbBr 3 PSC achieves a champion efficiency of 10.67% with an impressive open-circuit voltage of 1.622 V and an excellent long-term stability. This work provides an in-depth understanding on the precise Cs-Pb-Br perovskite phase control and the effect of derivatives on photovoltaic performance of advanced CsPbBr 3 PSCs., (© 2021 Wiley-VCH GmbH.)

Published

2022