学位：博士

毕业院校：苏州大学

电子邮箱：luzh55@mail.sysu.edu.cn

科研方向：新型光伏材料与器件

教育工作经历：

2026.02-至今中山大学，材料科学与工程，博士后

2023.02-2026.01 苏州大学，材料科学与工程，博士后

2017.09-2022.12 苏州大学，凝聚态物理，理学博士

2013.09-2017.06 苏州大学，测控技术与仪器，工学学士

科研项目：

1. 中国博士后科学基金第76批面上资助，2025.01-2026.1，主持。
2. 国家资助博士后研究人员计划资助，2024.01-2025.12，主持。
3. 江苏省卓越博士后，2023.06-2025.06，主持。

代表性论著：

1. H. Huang, Z. Lu*, S. Zou*, S. Zhang, Y. Zhen, Y. Xiao, Y. Chen, C. Wu, X. Su*, Europium-mediated fluorescence engineering for organic dyes to improve efficiency and ultraviolet stability of silicon heterojunction solar cells, Sol. Energ. Mat. & Sol. C,2026, 296, 114028.
2. H. Yang#, Z. Lu#,*, T. Hou, T. Qian, J. Li, R. Li, W. Cheng,J. Li, S. Wang, Y. Yang, G. Zhao, S. Ju, R. Zhang, Y. Huang, S. Zou*, X. Su*, G. Zou*, Molecular Extrusion Drives Polymer Dynamic Soft Encapsulation to Inhibit Lead Leakage for Efficient Inverted Perovskite Solar Cells and Modules. Adv. Mater.,2025, e11855.
3. S. Zhang, S. Zou*, Z. Lu*, H. Huang, Y. Zhen, Y. Xiao, X. Su*, Ligand Engineering Enhances Fluorescence Properties of Eu-Based Complexes for Efficiency Enhancement and UV Stability in Silicon Heterojunction Solar Cells. Adv. Optical Mater.,2025, e01394.
4. Z. Wang, S. Zou*, Z. Lu*, L. Dai, C. Peng, Z. Chen, H. Sun, J. Zhang, B. Liao, X. Su*, Solution-based Co-deposited Ni seed grids enabling simplified copper electroplating for silicon heterojunction solar cells, Sol. Energ. Mat. & Sol. C, 2025, 292, 113828. 
5. J. Li, L. Li*, S. Wang, R. Li, C. Wang, J. Cai, W. Cheng, J. Li, G. Zou*, Z. Lu*, Room-temperature processed plasma activated nickel oxide film for wide-bandgap perovskite solar cells, Sol. Energ. Mat. & Sol. C, 2024, 269, 112734.
6. M. Ni, C. Jiang, W. Cheng, K. Yang, L. Dai, Y. Zeng, J. Su*, Z. Lu*, S. Zou*, X. Su*, A solid strategy to realize efficient antibacterial activity on the shade surface of bulk silicon under natural or indoor lighting, Chem. Eng. J, 2024, 479, 147734.
7. Z. Lu, X. Xu, Y. Lou, L. Xiao, J. Zhao, S. Zou, Y. Ma, L. Li, C. Wang, X. Su and G. Zou, Surface modulus reconstruction toward robust flexible perovskite solar cells, J. Mater. Chem. A, 2023, 11, 17651.
8. K. Fan, Y. Dai, J. Wang, R. Wang, Z. Lu*, Y. Lou*, G. Zou*, Enhanced mechanical stability of perovskite film by modulating the toughness of grain boundary, Org. Electron., 2023, 117, 106778.
9. L. Xiao#, X. Xu#, Z. Lu#, J. Zhao*, R. Liu, Y. Ye, R. Tang*, W. Liao, R*. Xiong, G. Zou*, In-situ organic-inorganic ferroelectric layer growth for efficient perovskite solar cells with high photovoltage, Nano Energy, 2023, 107, 108114.
10. Z. Lu, Y. Lou*, L. Xiao, X. Xu, C. Wang, L. Li, X. Su*, G. Zou*, Grain-Slip Derived Network Topology to Remarkable Strength–Toughness Combination of Perovskite Film for Flexible Solar Cells. Adv. Energy Mater.,2022, 12, 2202298.
11. Z. Lu, Y. Lou*, P. Ma, K. Zhu, S. Cong, C. Wang, X. Su*, G. Zou*, Highly Flexible and Transparent Polylactic Acid Composite Electrode for Perovskite Solar Cells. Sol. RRL, 2020, 4, 2000320.