研究领域

主要从事新能源材料与器件领域的研究，聚焦于CZTSSe薄膜太阳能电池的制备与器件性能优化。系统开展异质结界面调控、吸收层缺陷抑制及光捕获结构优化等关键科学问题研究。

主要论著

1. Experimental and first-principles study of photoluminescent and optical properties of Na-doped CuAlO₂: the role of the Na_Al-2Na_i complex. Journal of Physics D: Applied Physics. (SCI, IF=3.4) 48(2015)335102. （第一作者）

2. Shallow Acceptor State in Mg-Doped CuAlO₂ and Its Effect on Electrical and Optical Properties: An Experimental and First-Principles Study. ACS Applied Materials & Interfaces. (SCI, IF=9.5) 9(2017)12608. （第一作者）

3. First-principles investigations on extrinsic acceptor defects in alkaline-earth metal and N doped CuAlO₂. Physica B: Condensed Matter. (SCI, IF=2.8) 547(2018)38. （第一作者）

4. Mechanism of improvement of efficiency of Cu₂ZnSn(S,Se)₄ solar cells by optimization of deposition temperature of CdS buffer layer. Solar Energy. (SCI, IF=6) 262(2023)111847. （通讯作者）

5. Achieving 11.23% efficiency in CZTSSe solar cells via defect control and interface contact optimization. Solar Energy. (SCI, IF=6) 283(2024)112913. （通讯作者）

6. Optimizing the window layer for achieving over 10% efficient Cu₂ZnSn(S, Se)₄ solar cells. Solar Energy Materials and Solar Cells. (SCI, IF=6.3) 269(2024)112798. （通讯作者）

7. Enhancing the performance of CZTSSe solar cells via an alternate spin-coating process with DMSO and DMF. Solar Energy Materials and Solar Cells. (SCI, IF=6.3) 274(2024)112976. （通讯作者）

8. Enhancing CZTSSe solar cell efficiency to 11.07% with NaClO-induced Mo texturing for improved light management and carrier collection. Applied Physics Letters. (SCI, IF=4.0) 126(2025)082108. （通讯作者）

9. Unveiling Sodium Diffusion Kinetics and Locking Mechanisms for High-Performance CZTSSe Photovoltaics. Advanced Science. (SCI, IF=15.1) (2025)e04087. （通讯作者）