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    Journals >Journal of Semiconductors >Volume 43 >Issue 10 >Page 100201 > Article
    • Journal of Semiconductors
    • Vol. 43, Issue 10, 100201 (2022)
    Failure pathways of perovskite solar cells in space
    Baoze Liu1, Lixiu Zhang2, Yan Jiang1、*, and Liming Ding2、**
    Author Affiliations
  • 1Songshan Lake Materials Laboratory, Dongguan 523808, China
  • 2Center 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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    DOI: 10.1088/1674-4926/43/10/100201 Cite this Article
    Baoze Liu, Lixiu Zhang, Yan Jiang, Liming Ding. Failure pathways of perovskite solar cells in space[J]. Journal of Semiconductors, 2022, 43(10): 100201 Copy Citation Text show less
    References

    [1] J Yang, Q Bao, L Shen et al. Potential applications for perovskite solar cells in space. Nano Energy, 76, 105019(2020).

    [2] C Xiao, Z Li, H Guthrey et al. Mechanisms of electron-beam-induced damage in perovskite thin films revealed by cathodoluminescence spectroscopy. J Phys Chem C, 48, 2690(2015).

    [3] S Chen, X Zhang, J Zhao et al. Atomic scale insights into structure instability and decomposition pathway of methylammonium lead iodide perovskite. Nat Commun, 9, 1(2018).

    [4] Z Song, C Li, C Chen et al. High remaining factors in the photovoltaic performance of perovskite solar cells after high-fluence electron beam irradiations. J Phys Chem C, 2, 1330(2019).

    [5] Y Miyazawa, M Ikegami, T Miyasaka et al. Evaluation of radiation tolerance of perovskite solar cell for use in space. 2015 IEEE 42nd Photovoltaic Specialist Conference (PVSC)(2015).

    [6] S Yang, Z Xu, S Xue et al. Organohalide lead perovskites: more stable than glass under gamma-ray radiation. Adv Mater, 31, 1805547(2019).

    [7] V V Brus, F Lang, J Bundesmann et al. Defect dynamics in proton irradiated CH3NH3PbI3 perovskite solar cells. Adv Electron Mater, 3, 1600438(2017).

    [8] F Lang, M Jošt, J Bundesmann et al. Efficient minority carrier detrapping mediating the radiation hardness of triple-cation perovskite solar cells under proton irradiation. Energy Environ Sci, 12, 1634(2019).

    [9] G Paternò, V Robbiano, L Santarelli et al. Perovskite solar cell resilience to fast neutrons. Sustain Energy Fuels, 3, 2561(2019).

    [10] K Yang, K Huang, X Li et al. Radiation tolerance of perovskite solar cells under gamma ray. Org Electron, 71, 79(2019).

    [11] A G Boldyreva, A F Akbulatov, S A Tsarev et al. γ-ray-induced degradation in the triple-cation perovskite solar cells. J Phys Chem C, 10, 813(2019).

    [12] A G Boldyreva, L A Frolova, I S Zhidkov et al. Unravelling the material composition effects on the gamma ray stability of lead halide perovskite solar cells: MAPbI3 breaks the records. J Phys Chem Lett, 11, 2630(2020).

    [13] K Motoki, Y Miyazawa, D Kobayashi et al. Degradation of CH3NH3PbI3 perovskite due to soft X-ray irradiation as analyzed by an X-ray photoelectron spectroscopy time-dependent measurement method. J Appl Phys, 121, 085501(2017).

    [14] S Svanström, A G Fernández, T Sloboda et al. X-ray stability and degradation mechanism of lead halide perovskites and lead halides. Phys Chem Chem Phys, 23, 12479(2021).

    [15] T Leijtens, G E Eperon, S Pathak et al. Overcoming ultraviolet light instability of sensitized TiO2 with meso-superstructured organometal tri-halide perovskite solar cells. Nat Commun, 4, 1(2013).

    [16] J Ji, X Liu, H Jiang et al. Two-stage ultraviolet degradation of perovskite solar cells induced by the oxygen vacancy-Ti4+ states. Iscience, 23, 101013(2020).

    [17] S Wang, Y Jiang, E J Juarez-perez et al. Accelerated degradation of methylammonium lead iodide perovskites induced by exposure to iodine vapour. Nat Energy, 2, 1(2016).

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    Baoze Liu, Lixiu Zhang, Yan Jiang, Liming Ding. Failure pathways of perovskite solar cells in space[J]. Journal of Semiconductors, 2022, 43(10): 100201
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