Author
Listed:
- Zijian Huang
(Peking University)
- Yang Bai
(Beijing Institute of Technology)
- Xudan Huang
(Chinese Academy of Sciences)
- Jiatong Li
(Peking University)
- Yuetong Wu
(Peking University)
- Yihua Chen
(Beijing Institute of Technology)
- Kailin Li
(Peking University)
- Xiuxiu Niu
(Beijing Institute of Technology)
- Nengxu Li
(Peking University)
- Guilin Liu
(Jiangnan University)
- Yu Zhang
(Peking University)
- Huachao Zai
(Peking University)
- Qi Chen
(Beijing Institute of Technology)
- Ting Lei
(Peking University)
- Lifen Wang
(Chinese Academy of Sciences)
- Huanping Zhou
(Peking University
Peking University)
Abstract
Achieving both high efficiency and long-term stability is the key to the commercialization of perovskite solar cells (PSCs)1,2. However, the diversity of perovskite (ABX3) compositions and phases makes it challenging to fabricate high-quality films3–5. Perovskite formation relies on the reaction between AX and BX2, whereas most conventional methods for film-growth regulation are based solely on the interaction with the BX2 component. Herein, we demonstrate an alternative approach to modulate reaction kinetics by anion–π interaction between AX and hexafluorobenzene (HFB). Notably, these two approaches are independent but work together to establish ‘dual-site regulation’, which achieves a delicate control over the reaction between AX and BX2 without unwanted intermediates. The resultant formamidinium lead halides (FAPbI3) films exhibit fewer defects, redshifted absorption and high phase purity without detectable nanoscale δ phase. Consequently, we achieved PSCs with power conversion efficiency (PCE) up to 26.07% for a 0.08-cm2 device (25.8% certified) and 24.63% for a 1-cm2 device. The device also kept 94% of its initial PCE after maximum power point (MPP) tracking for 1,258 h under full-spectrum AM 1.5 G sunlight at 50 ± 5 °C. This method expands the range of chemical interactions that occur in perovskite precursors by exploring anion–π interactions and highlights the importance of the AX component as a new and effective working site to improved photovoltaic devices with high quality and phase purity.
Suggested Citation
Zijian Huang & Yang Bai & Xudan Huang & Jiatong Li & Yuetong Wu & Yihua Chen & Kailin Li & Xiuxiu Niu & Nengxu Li & Guilin Liu & Yu Zhang & Huachao Zai & Qi Chen & Ting Lei & Lifen Wang & Huanping Zho, 2023.
"Anion–π interactions suppress phase impurities in FAPbI3 solar cells,"
Nature, Nature, vol. 623(7987), pages 531-537, November.
Handle:
RePEc:nat:nature:v:623:y:2023:i:7987:d:10.1038_s41586-023-06637-w
DOI: 10.1038/s41586-023-06637-w
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Citations
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Cited by:
- Shuxian Du & Hao Huang & Zhineng Lan & Peng Cui & Liang Li & Min Wang & Shujie Qu & Luyao Yan & Changxu Sun & Yingying Yang & Xinxin Wang & Meicheng Li, 2024.
"Inhibiting perovskite decomposition by a creeper-inspired strategy enables efficient and stable perovskite solar cells,"
Nature Communications, Nature, vol. 15(1), pages 1-11, December.
- Bin Wen & Tian Chen & Qixin Yin & Jiangsheng Xie & Chaohua Dai & Ruohao Lin & Sicen Zhou & Jiancan Yu & Pingqi Gao, 2024.
"Robust chelated lead octahedron surface for efficient and stable perovskite solar cells,"
Nature Communications, Nature, vol. 15(1), pages 1-8, December.
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