张辉

个人信息

张辉，教授，江苏省“六大人才高峰”高层次人才、“双创博士”

邮箱：iamhuizhang@njtech.edu.cn

地址：南京市鼓楼区新模范马路5号南京工业大学丁家桥校区D楼

主要经历

² 2021年-2022年，韩国成均馆大学（SKKU），访问教授

² 2019年-2020年，科技部中国科学技术交流中心（CSTEC），挂职

² 2016年-2017年，西班牙巴塞罗那光子科学研究所（ICFO），博士后

² 2011年-2015年，瑞士洛桑联邦理工大学（EPFL），博士

² 2010年-2011年，瑞士苏黎世联邦理工大学（ETH），科研助理

研究方向

围绕钙钛矿光伏材料与器件，聚焦“材料设计-制备工艺-器件性能”的内在关联展开研究，近年来在Nature、Science、Research、eScience等期刊发表学术论文50余篇，申请/授权中国发明专利10余项，相关研究成果被新华日报、科学网、江苏科技报等主流媒体亮点报道。主要包括以下几个方面：

² 钙钛矿材料高效清洁利用：开发环境友好、可环保制备、可回收再利用的高性能钙钛矿光伏材料及器件。代表作: Nature, 2023, 617(7962), 687-695；ACS Energy Lett. 2022, 7, 1577−1585；eScience 2022, 2, 567-572。

² 钙钛矿材料柔性化设计：利用柔性印刷工艺及钙钛矿薄膜表界面增韧设计，开发柔性、轻质钙钛矿器件。代表作: Angew. Chem. Int. Ed., 2022, 61(48), e202212268；J. Phys. Energy, 2023, 5, 024002；J. Phys. Chem. Lett. 2024, 15(19), 5150–5158。

² 光电器件光学管理：基于光学模拟设计光学结构、合成光学薄膜材料以调控光场在光伏器件的可控传播。代表作: ACS Appl. Mater. Interfaces 2023, 15, 21152−21161；ACS Appl. Energy Mater. 2020, 3, 4484-4491；ACS Photonics 2018, 5, 2243-2250。

近五年代表论文

1. H. Zhang, J-W. Lee, G. Nasti, R. Handy, A. Abate^*, M. Grätzel^*, N-G. Park^*. Lead immobilization for environmentally sustainable perovskite solar cells. Nature 2023, 617(7962), 687-695.

2. X. Liang, Y. Ming, S-H. Lee, G. Fu, S-U. Lee, T-I. Kim, H. Zhang*, N-G. Park* Degassing 4-tert-butylpyridine in the spiro-MeOTAD film improves the thermal stability of perovskite solar cells. ACS Appl. Mater. Interfaces 2024, 16(25), 32147–32159.

3. M. Zhang, L. Guo, J. Wen, J., Yang, Y. Liu, X. Zheng, G. Zhang, P. Zhu, Y. Xia, H. Zhang*, Y. Chen. Vertically oriented perovskites with minimized intrinsic boundaries for efficient photovoltaics. J. Phys. Chem. Lett. 2024, 15(19), 5150–5158.

4. H. Zhang*, N-G. Park* Progress and issues in p-i-n type perovskite solar cells. deCarbon 2024, 3, 100025.

5. D. Wang, M. Chen, X. Zhang, L. Chao, T. Niu, Y. Lv^*, G. Xing, Y. Xia, M. Li, H. Zhang^*, Y. Chen. Stabilization of component-pure α‑FAPbI₃ via volatile additives for stable photovoltaics. ACS Appl. Mater. Interfaces 2023, 15, 16818-16827.

6. H. Zhang, N-G. Park^*. Strain control to stabilize perovskite solar cells. Angew. Chem. Int. Ed. 2022, 61(48), e202212268.

7. J. Wang, R. Zhang, H. Xu,* Y. Chen, H. Zhang^*, N-G. Park^*. Polyacrylic acid grafted carbon nanotubes for immobilization of lead(II) in perovskite solar cell. ACS Energy Lett. 2022, 7, 1577-1585.

8. S. Yu, J. Hu, H. Zhang^*, G. Zhao, B. Li, Y.  Xia, Y. Chen. Recent progress in AC-driven organic and perovskite electroluminescent devices. ACS Photonics 2022, 9, 6, 1852–1874.

9. H. Zhang^*, N-G. Park^*. Polaron in perovskite solar cells: its effect on photovoltaic performance and stability. J. Phys. Energy 2023, 5, 024002.

10. Y. Xu, G. Liu, J. Hu, G. Wang, M. Chen, Y. Chen, M. Li, H. Zhang^*, Y. Chen^*. In situ polymer network in perovskite solar cells enabled superior moisture and thermal resistance. J. Phys. Chem. Lett. 2022, 13, 3754-3762.

11. H. Zhang, N-G. Park^*. Towards sustainability  with self-healing and recyclable perovskite solar cells. eScience 2022, 2, 567-572.

12. W. Wu, M. Fang, L. Chao, L. Tao, H. Lu, B. Li, X. Ran, P. Li, Y. Xia, H. Zhang^*, Y. Chen^*. In-situ nanocrystal seeding perovskite crystallization towards high performance solar cells. Mater. Today Energy 2021, 22, 100855.

13. M. Fang, L. Tao, W. Wu, Q. Wei, Y. Xia, P. Li, X. Ran, Q. Zhong, G. Xing, L. Song, P. Müller-Buschbaum, H. Zhang^*, Y. Chen^*. Residual solvent extraction via chemical displacement for efficient and stable perovskite solar cells. J. Energy Chem. 2021(61), 8-14.

14. W. Hui, L. Chao, H. Lu, F. Xia, Q. Wei, Z. Su, T. Niu, L. Tao, B. Du, D. Li, Y. Wang, H. Dong, S. Zuo, B. Li,  W. Shi, X. Ran, P. Li, H. Zhang, Z. Wu, C. Ran, L. Song, G. Xing, X. Gao, J. Zhang, Y. Xia, Y. Chen^*, W. Huang^*. Stabilizing black-phase formamidinium perovskite formation at room temperature and high humidity. Science 2021(371), 1359-1364.

15. Z. Qian, L. Chen, J. Wang, L. Wang, Y. Xia, X. Ran, P. Li, Q. Zhong, L. Song, P. Müller-Buschbaum, Y. Chen, H. Zhang^*. Manipulating SnO₂ growth for efficient electron transport in perovskite solar cells. Adv. Mater. Interfaces 2021, 2100128.

16. L. Chen, W. Wu, J. Wang, Z. Qian, R. Liu, Y. Niu, Y. Chen, X. Xie^*, H. Zhang^*. Lanthanide stabilized all-inorganic CsPbI₂Br perovskite solar cells with superior thermal      resistance. ACS Appl. Energy Mater. 2021(4), 3937-3944.

17. J. Wang, L. Chen, Z. Qian, G. Ren, J. Wu, H. Zhang^*. Optimal intermediate adducts regulate low-temperature CsPbI₂Br crystallization for efficient inverted all-inorganic perovskite solar cells. J. Mater. Chem. A 2020, 8, 25336-25344.

18. Y. Lv, H. Zhang^*, J. Wang, L. Chen, L. Bian, Z. An^*, Z. Qian, G. Ren, J. Wu, F. Nüesch, W. Huang^*. All-in-one deposition to synergistically manipulate perovskite growth for high-performance solar cell. Research 2020, 2763409.

19. J. Wang, H. Zhang^*, L. Wang, K. Yang, L. Cang, X. Liu^*, W. Huang. Highly stable and efficient mesoporous and hollow silica antireflection coatings for perovskite solar cells. ACS Appl. Energy Mater. 2020, 3, 4484-4491.

20. Y. Lv, H. Zhang^*, R. Liu, Y. Sun, W. Huang^*. Composite encapsulation enabled superior comprehensive stability of perovskite solar cells. ACS Appl. Mater. Interfaces      2020, 12, 27277−27285.