职称：

副教授

博导/硕导：

硕士生导师

通讯地址：

上海市上大路99号上海大学G楼602室

联系电话：

E-mail：

lij@shu.edu.cn

从事专业

计算物理与计算材料

研究方向

磁性与磁性材料、拓扑材料、量子计算

讲授主要课程

《电磁学》《热力学与统计物理》《物质结构和物性的人工智能辅助设计》

参加学术团体、任何职务

学习与工作简历

2014.09-2017.06：复旦大学 物理学系 理学博士

2017.07-2019.06：美国加州大学(Irvine分校) The CaSTL Center 博士后研究员

2019.07-2022.09：美国加州大学(Irvine分校) 物理与天文系 博士后研究员

2022.12-2025.06：上海大学 材料科学与工程学院 副教授

2025.07 至今：上海大学 量子科技研究院 副教授

代表性成果（论文、论著、申请专利、荣誉奖励等）

代表性论文（#第一作者，*通讯作者）：

36. Yuwen Sun, Xinchun Du, Chengyan Liu*, and Jie Li*, Ferroelectric control of magnetic properties in single metallocenes. Appl. Phys. Lett. 128, 082404 (2026).

35. Peiru Yang, Xinchun Du, Jie Li*, and Siqi Shi*, Comparative study on electronic structures of two phases compounds and origin of the structural phase transition in LiFePO₄. Chinese Physics B 34, 118201 (2025). 

34. Xingxu Yan, Paul M. Zeiger, Yifeng Huang, Haoying Sun, Jie Li, Chaitanya A. Gadre, Hongbin Yang, Ri He, Toshihiro Aoki, Zhicheng Zhong, Yuefeng Nie, Ruqian Wu, Ján Rusz, and Xiaoqing Pan, Atomic-scale imaging of frequency-dependent phonon anisotropy. Nature 645, 893-899 (2025). 

33. Jie Li*, Xinchun Du, Cunzhe Lou, and Jianxin Zhong*, Ferroelectric-driven magnetic phase transition in topological antiferromagnets. Phys. Rev. B 112, 014418 (2025). 

32. Hao Jiang, Zhiwen Zhu, Xinyi Zhang, Shaoxuan Yuan, Kai Guo, Jie Li and Qiang Sun, Exploring Selective Photochemistry on Metal Surfaces through Wavelength-Dependent Light Excitation. Nano Letters 25, 9597-9604(2025). 

31. Lixuan Tai, Haoran He, Su Kong Chong, Huairuo Zhang, Hanshen Huang, Gang Qiu,Yuxing Ren, Yaochen Li, Hung-Yu Yang, Ting-Hsun Yang, Xiang Dong, Bingqian Dai,Tao Qu, Qingyuan Shu, Quanjun Pan, Peng Zhang, Fei Xue, Jie Li, Albert V. Davydov,and Kang L. Wang, Giant Hall Switching by Surface-State-Mediated Spin-Orbit Torque in a Hard Ferromagnetic Topological Insulator. Adv. Mater.  36, 2406772 (2024). 

30. Jin Wang, Jia Han, Shu Chen*, Jie Li*, Yangzhou Wang, Chuanyi Wu, Qianshuo Wang, Zihan Wang, Fei Chen*, and Wen Wan*, Observation of a V-Shape Superconductivity Evolution on Tungsten-Intercalated 2H-Type Niobium Diselenide. ACS Nano 18 (40) 27665–27671(2024). 

29. Jie Li*, Peiru Yang, Wei Ren, and Ruqian Wu*, Pressure-induced switching between topological phases in magnetic van der Waals heterostructures. Phys. Rev. B 109, 035419 (2024). 

28. S. K. Chong^#, P. Zhang^#, J. Li^#, Y. Zhou, J. Wang, H. Zhang, A. V. Davydov, J. Xia, R. Wu, and K. L. Wang, Electrical controllable topological phase transition in quantum anomalous Hall insulator. Adv. Mater. 35, 2207622 (2023). 

27. Jie Li and Ruqian Wu, Electrically tunable topological phase transition in van der Waals heterostructures. Nano Letters, 23, 6, 2173-2178 (2023). 

26. J. Li, and R. Q. Wu, Ferroelectrics and photovoltaics in endohedral fullerenes-based van der Waals heterostructures. Appl. Phys. Lett. 120, 023301 (2022). 

25. L. Tai^#, B. Dai^#, J. Li^#, H. Huang, S. K. Chong, K. L. Wong, H. Zhang, P. Zhang, P. Deng, C. Eckberg, G. Qiu, H. He, D. Wu, S. Xu, A. V. Davydov, R. Wu and K. L. Wang, Distinguishing the Two-Component Anomalous Hall Effect from the Topological Hall Effect. ACS Nano 16 (10) 17336–17346 (2022). 

24. X. Yan^#, J. Li^#, L. Gu, C. A. Gadre, S. L. Moore, T. Aoki, S. Wang, G. Zhang, Z. Gao, D. N. Basov, R. Wu, and X. Pan, Curvature-Induced One-Dimensional Phonon Polaritons at Edges of Folded Boron Nitride Sheets. Nano Letters 22, 9319-9326 (2022).

23. S. Li, G. Czap, J. Li, Y. Zhang, A. Yu, D. Yuan, H. Kimura, R. Wu, and W. Ho, Confinement-induced catalytic dissociation of Hydrogen molecules in a Scanning Tunneling Microscope. J. Am. Chem. Soc. 144 (22) 9618–9623 (2022).

22. C. A. Gadre, X. Yan, Q. Song, J. Li, L. Gu, H. Huyan, T. Aoki, S. W. Lee, G. Chen, R. Wu, X. Pan, Nanoscale imaging of phonon dynamics by electron microscopy.  Nature 606, 292-297 (2022). 

21. J. Li, L. Gu, and R. Q. Wu, Slow spin relaxation in single endohedral fullerene molecules. Phys. Rev. B 104, 224431 (2021). 

20. J. Li, and R. Q. Wu, Two-dimensional multifunctional materials from endohedral fullerenes. Phys. Rev. B 103, 115417 (2021). 

19. J. Li, and R. Q. Wu, Bias-tunable two-dimensional magnetic and topological materials. Nanoscale 13, 12513-12520 (2021) (selected to "2021 Nanoscale HOT Article Collection"). 

18. J. Li, L. Gu, and R. Q. Wu, Giant magnetic anisotropy energy and long coherence time of uranium substitution on defected Al₂O₃(0001). Phys. Rev. B 102, 054406 (2020). 

17. J. Li, L. Gu, and R. Q. Wu, Possible realization and protection of valley-polarized quantum Hall effect in Mn/WS₂. Phys. Rev. B 101, 024412 (2020). 

16. J. Li, and R. Q. Wu, Metal-organic frameworks: Possible new two-dimensional magnetic and topological materials. Nanoscale 12, 23620 (2020). 

15. J. Li, L. Gu, and R. Q. Wu, Transition-metal phthalocyanine monolayers as new Chern insulators. Nanoscale 12, 3888 (2020). 

14. G. Czap, P. J. Wagner, F. Xue, L. Gu, J. Li, J. Yao, R. Wu, and W. Ho, Probing and imaging spin interactions with magnetic single-molecule sensor. Science 364 (6441), 670 (2019). 

13. G. Czap, P. J. Wagner, J. Li, F. Xue, J. Yao, R. Wu, and W. Ho, Detection of spin- vibration states in single magnetic molecules. Phys. Rev. Lett. 123 (10), 106803 (2019).

12. J. Li, H. Wang, Ding-Sheng Wang, and R. Q. Wu, Protected giant magnetic anisotropy in two-dimensional materials: Transition-metal adatoms on defected tungsten disulfide monolayer. J. Magn. Magn. Mater. 462, 167 (2018). 

11. K. Hatsuda, H. Mine, T. Nakamura, J. Li, R. Wu, S. Katsumoto, and J. Haruyama, Evidence for a quantum spin Hall phase in graphene decorated with Bi₂Te₃ nanoparticles. Science Advances. 4(11), eaau6915 (2018). 

10. S. Li, S. Chen, J. Li, R. Wu, and W. Ho, Joint space-time coherent vibration driven conformational transitions in a single molecule. Phys. Rev. Lett. 119, 176002 (2017). 

9. Y. Su, H. Wang, J. Li, C. Tian, R. Wu, X. F. Jin, and Y. R. Shen, Absence of detectable MOKE signals from spin Hall effect in metals. Appl. Phys. Lett. 110, 042401 (2017). 

8. J. Li, H. Wang, J. Hu, and R. Q. Wu, Search for giant magnetic anisotropy in transition- metal dimmers on defected hexagonal boron nitride sheet. J. Chem. Phys. 144, 204704 (2016). 

7. J. Li, J. Hu, H. Wang, and R. Q. Wu, Rhenium-phthalocyanine molecular nanojunction with high magnetic anisotropy and high spin filtering efficiency. Appl. Phys. Lett. 107, 032404 (2015). 

6. J. Li, Z. H. Zhang X. Q. Deng, Z. Q. Fan, and G. P. Tang, Magnetic transport properties of a trigonal graphene sandwiched between graphene nanoribbon electrodes. Carbon 93, 335-341 (2015). 

5. J. Li, Z. H. Zhang, M. Qiu, C. Yuan, X. Q. Deng, Z. Q. Fan, G. P. Tang, and B. Liang, High-performance current rectification in a molecular device with doped graphene electrodes. Carbon 80, 575-582 (2014).

4. J. Li, Z. H. Zhang, D. Wang, Z. Zhu, Z. Q. Fan, G. P. Tang, and X. Q. Deng, Electronic structures, field effect transistor and bipolar field-effect spin filtering behaviors of functionalized hexagonal graphene nanoflakes. Carbon 69, 142-150 (2014). 

3. J. Li, Z. H. Zhang, G. Kwong, W. Tian, Z. Q. Fan, X. Q. Deng, A new exploration on the substantial improvement of rectifying behaviors for a donor-acceptor molecular diode by graphene electrodes. Carbon 61, 284-293 (2013). 

2. J. Li, Z. H. Zhang, J. J. Zhang, W. Tian, Z. Q. Fan, X. Q. Deng, and G. P. Tang, Spin polarization effects of zigzag-edge graphene electrodes on the rectifying performance of the D-σ-A molecular diode. Organic Electronics. 14, 958-965 (2013).

1. J. Li, Z. H. Zhang, J. J. Zhang, and X. Q. Deng, Rectifying regularity for a combined nanostructure of two trigonal graphenes with different edge modifications. Organic Electronics. 13, 2257-2263 (2012).

1. 上海市领军人才项目（海外）2023.01-2025.12 主持

2. 国家自然科学基金青年科学基金C类项目2024.01-2026.12 主持

3. 上海市科技创新行动—量子基础研究项目2025.01-2027.12 骨干成员

在读学生

杜新春、娄存哲、文云鹤

已毕业学生

杨佩如（2025）

其他

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