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Journal of Semiconductors, Volume. 44, Issue 2, 020202(2023)

Doping organic hole-transport materials for high-performance perovskite solar cells

Dongmei He1, Shirong Lu2, Juan Hou3、*, Cong Chen4、**, Jiangzhao Chen1、***, and Liming Ding5、****
Author Affiliations
  • 1Key Laboratory of Optoelectronic Technology & Systems (MoE), College of Optoelectronic Engineering, Chongqing University, Chongqing 400044, China
  • 2Department of Material Science and Technology, Taizhou University, Taizhou 318000, China
  • 3Department of Physics, Shihezi University, Shihezi 832003, China
  • 4State Key Laboratory of Reliability and Intelligence of Electrical Equipment, School of Materials Science and Engineering, Hebei University of Technology, Tianjin 300401, China
  • 5Center for Excellence in Nanoscience (CAS), Key Laboratory of Nanosystem and Hierarchical Fabrication (CAS), National Center for Nanoscience and Technology, Beijing 100190, China
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    (Color online) (a) Comparison between the conventional and ion-modulated (IM) radical doping strategies. (b)J–V characteristics for SnO2-based PSCs (under different doping). (c)J–V curves for TiO2-based PSCs (conventional dopingvs IM radical doping). (d) Moisture stability for unencapsulated PSCs under 70 ± 5% humidity (conventional dopingvs IM radical doping). (e) Thermal stability for the unsealed devices at 70 ± 3 °C. Reproduced with permission[2], Copyright 2022, American Association for the Advancement of Science.

    Fig. 1. (Color online) (a) Comparison between the conventional and ion-modulated (IM) radical doping strategies. (b)J–V characteristics for SnO2-based PSCs (under different doping). (c)JV curves for TiO2-based PSCs (conventional dopingvs IM radical doping). (d) Moisture stability for unencapsulated PSCs under 70 ± 5% humidity (conventional dopingvs IM radical doping). (e) Thermal stability for the unsealed devices at 70 ± 3 °C. Reproduced with permission[2], Copyright 2022, American Association for the Advancement of Science.

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    (Color online) (a) Molecular structures for PTAA, F4TCNQ and LiHFDF. (b) Cross-sectional SEM image for PSCs with HFDF-HTL. (c)J–V curves for PSCs (Li-HTLvs HFDF-HTL). (d) Moisture stability for unsealed PSCs under AM1.5G radiation and ~50% RH (Li-HTLvs HFDF-HTL). (e) Thermal stability for the encapsulated devices with different HTLs under AM1.5G illumination at 85 °C. Reproduced with permission[16], Copyright 2022, American Association for the Advancement of Science.

    Fig. 2. (Color online) (a) Molecular structures for PTAA, F4TCNQ and LiHFDF. (b) Cross-sectional SEM image for PSCs with HFDF-HTL. (c)JV curves for PSCs (Li-HTLvs HFDF-HTL). (d) Moisture stability for unsealed PSCs under AM1.5G radiation and ~50% RH (Li-HTLvs HFDF-HTL). (e) Thermal stability for the encapsulated devices with different HTLs under AM1.5G illumination at 85 °C. Reproduced with permission[16], Copyright 2022, American Association for the Advancement of Science.

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    Dongmei He, Shirong Lu, Juan Hou, Cong Chen, Jiangzhao Chen, Liming Ding. Doping organic hole-transport materials for high-performance perovskite solar cells[J]. Journal of Semiconductors, 2023, 44(2): 020202

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    Paper Information

    Category: Articles

    Received: Dec. 16, 2022

    Accepted: --

    Published Online: Mar. 20, 2023

    The Author Email: Hou Juan (hjuan05@shzu.edu.cn), Chen Cong (chencong@hebut.edu.cn), Chen Jiangzhao (jiangzhaochen@cqu.edu.cn), Ding Liming (ding@nanoctr.cn)

    DOI:10.1088/1674-4926/44/2/020202

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology