1. Efficient and bending durable flexible Cu2ZnSn(S,Se)4 solar cells achieved by Ga doping stress regulation.
- Author
-
Sun, Luanhong, Sun, Yuhao, Hao, Lingyun, Lin, Qing, Wang, Wei, Zhao, Yijie, Guan, Hangmin, and Ye, Yuanfeng
- Subjects
- *
SOLAR cells , *RESIDUAL stresses , *PHOTOVOLTAIC power systems , *COPPER-zinc alloys , *THIN films , *POROSITY , *SOLAR energy - Abstract
• Ga doping is applied to the tailor residual stress of flexible CZTSSe thin film. • Alleviated residual stress contributes a superior microstructure of CZTSSe. • Evaporated 20 nm Ga layer exhibits the best PCE with satisfying bending durability. Ga-doped CZTSSe is achieved by evaporating Ga layer in precursor combined with subsequent selenization to balance the efficiency and bending durability of flexible CZTSSe solar cells in this paper. Ga doping can simultaneously alleviate the residual stress and reinforce the microstructure of CZTSSe, retaining the original lattice structure of CZTSSe and suppressing Sn-related deep level defects. The gratifying residual stress reduction from -5.31 GPa to -3.82 GPa with decreased porosity from 6.24% to 3.24% of CZTSSe thin film spontaneously promotes the device performance after evaporating the 20 nm Ga layer. A desirable efficiency enhancement from 2.61% to 5.04% with preferable bending durability of flexible device is achieved, which strategy provides substantial assistance for the potential application of flexible solar cells. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF