段赛，教授，博士/硕士生导师；
联系方式：duansai@tongji.edu.cn

地址：上海市嘉定区曹安公路4800号；同济大学嘉定校区

研究方向：超高空间分辨谱学理论和表界面模拟

duansai, Professor
Contact: duansai@tongji.edu.cn

Address: No. 4800 Cao’an Road, Jiading District, Shanghai; Tongji University Jiading Campus

Research Interest: Theory for super-high spatial resolution spectroscopies; simulations of surface and interface

简介：段赛，2011年获得厦门大学博士学位，2012年获瑞典皇家理工学院博士，2012-2018年在瑞典皇家理工学院从事博士后、研究员工作，2018-2025年在复旦大学从事青年研究员工作，2026年2月加入同济大学。自主开发了可研究各类局域场光谱技术的FASTERS软件包、针尖和衬底效应并重的扫描隧道显微镜从头算模拟程序以及能模拟百万原子数小时反应的全原子精度高效动力学蒙托卡洛方法。以第一作者或通讯作者（含共同）在Science，Nat. Photon.，Nat. Nanotechnol.，Nat. Commnu.，J. Am.Chem. Soc.，JACS Au，Angew. Chem.，Chem. Soc. Rev.等期刊发表论文50 余篇，获得第九届中国化学会唐敖庆理论化学青年奖、被遴选为中国化学会理论化学青年委员会首届委员。欢迎有相关背景和研究兴趣的硕/博士研究生加盟课题组！

代表作：

1)W. Shi#, T. Shen#, C. Xing, K. Sun, Q. Yan, W. Niu, X. Yang, J. Li, C. Wei, R. Wang, S. Fu, Y. Yang, L. Xue, J. Chen, S. Cui, X. Hu, K. Xie, X. Xu*, S. Duan*, Y. Xu*, and B. Zhang*. Ultrastable Supported Oxygen Evolution Electrocatalyst Formed by Ripening-Induced Embedding. Science, 387(6735):791–796, 2025

2)S. Fang#, S. Duan#, X. Wang, S. Chen, L. Li, H. Li, B. Jiang, C. Liu, N. Wang, L. Zhang, X. Wen, Y. Yao, J. Zhang, D. Xie*, Y. Luo*, and W. Xu*. Direct Characterization of Shear Phonons in Layered Materials by Mechano-Raman Spectroscopy. Nat. Photon., 17(6):531–537, 2023

3)C.-Y. Li#, S. Duan#, B.-Y. Wen, S.-B. Li, K. Murugavel, L.-Q. Xie, S. Chen, J. R. Anema, B.-W. Mao, Y. Luo*, Z.-Q. Tian, and J.-F. Li*. Observation of Inhomogeneous Plasmonic Field Distribution in a Nanocavity. Nat. Nanotechnol., 15(11):922–926, 2020

4)H.-Z. Yu, R.-L. Han, D. Chu, Y. Li, X.-R. Dong, Y. Zhang, L. Wang, Y. Song, C.-K. Wang, Z. Xie*, and S. Duan*. Theoretical Prediction for Monitoring Jahn-Teller Vibrational Evolution Using Real-Space Tip-Enhanced Raman Imaging. Nat. Commun., 17(1):1132, 2026

5)S. Duan#, I. Y. Zhang#, Z. Xie, and X. Xu*. Identification of Water Hexamer on Cu(111) Surfaces. J. Am. Chem. Soc., 142(15):6902–6906, 2020

6)S. Duan, Z. Rinkevicius, G. Tian, and Y. Luo*. Optomagnetic Effect Induced by Magnetized Nanocavity Plasmon. J. Am. Chem. Soc., 141(35):13795–13798, 2019

7)S. Duan, G.-J. Tian, Y.-F. Ji, J.-S. Shao, Z.-C. Dong, and Y. Luo*. Theoretical Modeling of Plasmon-Enhanced Raman Images of a Single Molecule with Subnanometer Resolution. J. Am. Chem. Soc., 137(30):9515–9518, 2015

8)Y. Zhu#, R. Xue#, H. Ren, Y. Chen, W. Yan, B. Wu, S. Duan*, H. Zhang*, L. Chi*, and X. Xu*. Reconstructing Pristine Molecular Orbitals from Scanning Tunneling Microscope Images via Artificial Intelligence Approaches. JACS Au, 5(7):3163–3170, 2025

9)S. Duan, G. Tian, and X. Xu*. A General Framework of Scanning Tunneling Microscopy Based on Bardeen’s Approximation for Isolated Molecules. JACS Au, 3(1):86–92, 2023

10)F. Qiu#, Z.-Y. Gong#, D. Cao, C. Song, G. Tian*, S. Duan*, and Y. Luo*. Optical Images of Molecular Vibronic Couplings from Tip-Enhanced Fluorescence Excitation Spectroscopy. JACS Au, 2(1):150–158, 2022

11)S. Duan, G.-J. Tian, and Y. Luo*. Visualization of Vibrational Modes in Real Space by Tip-Enhanced Non-Resonant Raman Spectroscopy. Angew. Chem. Int. Ed., 55(3):1041–1045, 2016

12)S. Duan#,*, G. Tian#, and Y. Luo*. Theoretical and Computational Methods for Tip- and Surface-Enhanced Raman Scattering. Chem. Soc. Rev., 53(10):5083–5117, 2024