Author
Listed:
- Jiazheng Zhou
(Beijing National Laboratory for Condensed Matter Physics, Renewable Energy Laboratory, Institute of Physics, Chinese Academy of Sciences (CAS)
University of Chinese Academy of Sciences)
- Xiao Xu
(Beijing National Laboratory for Condensed Matter Physics, Renewable Energy Laboratory, Institute of Physics, Chinese Academy of Sciences (CAS)
University of Chinese Academy of Sciences)
- Huijue Wu
(Beijing National Laboratory for Condensed Matter Physics, Renewable Energy Laboratory, Institute of Physics, Chinese Academy of Sciences (CAS))
- Jinlin Wang
(Beijing National Laboratory for Condensed Matter Physics, Renewable Energy Laboratory, Institute of Physics, Chinese Academy of Sciences (CAS)
University of Chinese Academy of Sciences)
- Licheng Lou
(Beijing National Laboratory for Condensed Matter Physics, Renewable Energy Laboratory, Institute of Physics, Chinese Academy of Sciences (CAS)
University of Chinese Academy of Sciences)
- Kang Yin
(Beijing National Laboratory for Condensed Matter Physics, Renewable Energy Laboratory, Institute of Physics, Chinese Academy of Sciences (CAS)
University of Chinese Academy of Sciences)
- Yuancai Gong
(Nanjing University of Posts & Telecommunications)
- Jiangjian Shi
(Beijing National Laboratory for Condensed Matter Physics, Renewable Energy Laboratory, Institute of Physics, Chinese Academy of Sciences (CAS))
- Yanhong Luo
(Beijing National Laboratory for Condensed Matter Physics, Renewable Energy Laboratory, Institute of Physics, Chinese Academy of Sciences (CAS)
University of Chinese Academy of Sciences
Songshan Lake Materials Laboratory)
- Dongmei Li
(Beijing National Laboratory for Condensed Matter Physics, Renewable Energy Laboratory, Institute of Physics, Chinese Academy of Sciences (CAS)
University of Chinese Academy of Sciences
Songshan Lake Materials Laboratory)
- Hao Xin
(Nanjing University of Posts & Telecommunications)
- Qingbo Meng
(Beijing National Laboratory for Condensed Matter Physics, Renewable Energy Laboratory, Institute of Physics, Chinese Academy of Sciences (CAS)
University of Chinese Academy of Sciences
Songshan Lake Materials Laboratory
University of Chinese Academy of Sciences)
Abstract
The control of the phase evolution during the selenization of kesterite Cu2ZnSn(S,Se)4 (CZTSSe) is crucial for efficient solar cells. Here, we regulate the phase-evolution kinetics of Ag-alloyed CZTSSe by applying a positive pressure in the reaction chamber at the initial stage of the annealing process. The partial pressure of Se decreases, reducing the collision probability between selenium molecules and the kesterite precursor during the initial formation of the crystals. This results in the precursor transforming into CZTSSe in a single step, without the formation of secondary phases. CZTSSe forms at relatively higher temperature than conventional methods, leading to high-crystallinity kesterite films with fewer defects. We demonstrate solar cells with a total area efficiency of 14.1% and a certified total area efficiency of 13.8%. This work provides insights into the selenization mechanism and phase evolution of kesterite absorbers, enabling efficient solar cells.
Suggested Citation
Jiazheng Zhou & Xiao Xu & Huijue Wu & Jinlin Wang & Licheng Lou & Kang Yin & Yuancai Gong & Jiangjian Shi & Yanhong Luo & Dongmei Li & Hao Xin & Qingbo Meng, 2023.
"Control of the phase evolution of kesterite by tuning of the selenium partial pressure for solar cells with 13.8% certified efficiency,"
Nature Energy, Nature, vol. 8(5), pages 526-535, May.
Handle:
RePEc:nat:natene:v:8:y:2023:i:5:d:10.1038_s41560-023-01251-6
DOI: 10.1038/s41560-023-01251-6
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