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Development of High-Efficiency and High-Stability Perovskite Solar Cells with Space Environmental Resistance

Author

Listed:
  • Donghwan Yun

    (School of Materials Science and Engineering, Gyeongsang National University, Jinju 52828, Republic of Korea)

  • Youngchae Cho

    (School of Materials Science and Engineering, Gyeongsang National University, Jinju 52828, Republic of Korea)

  • Hyeseon Shin

    (School of Materials Science and Engineering, Gyeongsang National University, Jinju 52828, Republic of Korea)

  • Gi-Hwan Kim

    (School of Materials Science and Engineering, Gyeongsang National University, Jinju 52828, Republic of Korea)

Abstract

The rapid growth of the private space industry has intensified the demand for lightweight, efficient, and cost-effective photovoltaic technologies. Metal halide perovskite solar cells (PSCs) offer high power conversion efficiency (PCE), mechanical flexibility, and low-temperature solution processability, making them strong candidates for next-generation space power systems. However, exposure to extreme thermal cycling, high-energy radiation, vacuum, and ultraviolet light in space leads to severe degradation. This study addresses these challenges by introducing three key design strategies: self-healing perovskite compositions that recover from radiation-induced damage, gradient buffer layers that mitigate mechanical stress caused by thermal expansion mismatch, and advanced encapsulation that serves as a multifunctional barrier against space environmental stressors. These approaches enhance device resilience and operational stability in space. The design strategies discussed in this review are expected to support long-term power generation for low-cost satellites, high-altitude platforms, and deep-space missions. Additionally, insights gained from this research are applicable to terrestrial environments with high radiation or temperature extremes. Perovskite solar cells represent a transformative solution for space photovoltaics, offering a pathway toward scalable, flexible, and radiation-tolerant energy systems.

Suggested Citation

  • Donghwan Yun & Youngchae Cho & Hyeseon Shin & Gi-Hwan Kim, 2025. "Development of High-Efficiency and High-Stability Perovskite Solar Cells with Space Environmental Resistance," Energies, MDPI, vol. 18(13), pages 1-26, June.
    • Handle: RePEc:gam:jeners:v:18:y:2025:i:13:p:3378-:d:1688767
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    References listed on IDEAS

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    1. Naveen Kumar Elumalai & Md Arafat Mahmud & Dian Wang & Ashraf Uddin, 2016. "Perovskite Solar Cells: Progress and Advancements," Energies, MDPI, vol. 9(11), pages 1-20, October.
    2. Jinxi Chen & Xi Wang & Tao Wang & Jia Li & Hou Yi Chia & Haoming Liang & Shibo Xi & Shunchang Liu & Xiao Guo & Renjun Guo & Zhenrong Jia & Xinxing Yin & Qilin Zhou & Yuduan Wang & Zhuojie Shi & Haoyu , 2025. "Determining the bonding–degradation trade-off at heterointerfaces for increased efficiency and stability of perovskite solar cells," Nature Energy, Nature, vol. 10(2), pages 181-190, February.
    3. Peng Chen & Yun Xiao & Juntao Hu & Shunde Li & Deying Luo & Rui Su & Pietro Caprioglio & Pascal Kaienburg & Xiaohan Jia & Nan Chen & Jingjing Wu & Yanping Sui & Pengyi Tang & Haoming Yan & Tianyu Huan, 2024. "Multifunctional ytterbium oxide buffer for perovskite solar cells," Nature, Nature, vol. 625(7995), pages 516-522, January.
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