黄迪 教授博导

邮箱:idgnauh@tongji.edu.cn

联系方式:bet356体育在线官方网站四平校区光学馆304室

个人简历
教育经历:
  • 凝聚态物理博士(硕转博)           复旦大学 (2011年09月 – 2017年06月)

  • 物理学学士                                  郑州大学 (2007年09月 – 2011年07月)

工作经历:
  • 教授,bet356体育在线官方网站(2023年02月至今)

  • 特聘研究员,bet356体育在线官方网站(2022年06月至2023年02月)

  • 博士后,美国德克萨斯大学奥斯汀分校物理系,导师:李晓勤教授 (2019年04月至2022年06月)

  • 研究助理,复旦大学物理系, 导师:吴施伟教授 (2017年07月-2019年03月)

研究方向

发展并利用温度、电场、磁场等多重维度下的扫描光学显微术,通过开发新型技术,针对低维材料及其微纳结构,对其实现基于非线性光学的量子动力学探测。具体包含三个方面:开发可实现温度、电场与磁场调控的新型扫描光学显微镜系统;开发基于新型原理的二维相干光谱设备及其显微成像系统;利用上述研究系统,针对性的开展探索基于微纳器件相关物理学原理。

奖励荣誉
获奖:
  • 2022年,入选国家高层次人才计划青年项目

  • 2022年,入选上海市领军人才(海外)计划

  • 2019年,中国光学十大进展(2018年)

  • 2014年,复旦大学博士生优秀学业奖学金

  • 2013年,复旦大学博士生新生奖学金

  • 2013年,复旦大学物理系学术年会最佳张贴报告奖银奖

荣誉:
主要论著

1. Di Huang*, Junho Choi, Chih-Kang Shih, Xiaoqin Li*, Excitons in semiconductor moiré superlattices, Nature Nanotechnology 17, 227–238 (2022).

2. Di Huang, Tao Jiang, Yangfan Yi, Yuwei Shan, Yingguo Li, Zhihong Zhang, Kaihui Liu, Wei-Tao Liu, Shiwei Wu*, Selective excitation of four-wave mixing by helicity in gated graphene, Optics Letters 47 (2), 234-237 (2022).

3. Di Huang#, Tao Jiang#, Yu Zhang, Yuwei Shan, Xiaodong Fan, Zhihong Zhang, Yunyun Dai, Lei Shi, Kaihui Liu, Changgan Zeng, Jian Zi, Wei-Tao Liu*, Shiwei Wu*, Gate switching of ultrafast photoluminescence in graphene, Nano Letters 18, 7985-7990 (2018).

4.     Yu Zhang#, Di Huang#, Yuwei Shan, Tao Jiang, Zhihong Zhang, Kaihui Liu, Lei Shi, Jinluo Cheng, John E Sipe, Wei-Tao Liu*, Shiwei Wu*, Doping-induced second-harmonic generation in centrosymmetric graphene from quadrupole response, Physical Review Letters 122, 047401 (2019). (共同一作)

5.     T. Jiang#, D. Huang#, J. L. Cheng, X. D. Fan, Z. H. Zhang, Y. W. Shan, Y. F. Yi, Y. Y. Dai, L. Shi, K. H. Liu, C. G. Zeng, J. Zi, J. E. Sipe, Y. R. Shen, W. T. Liu*, S. W. Wu*, Gate-tunable third-order nonlinear optical response of massless Dirac fermions in graphene. Nature Photonics 12, 430-436 (2018).(共同一作)

6.     S. Helmrich, K. Sampson, D. Huang, M. Selig, K. Hao, K. Tran, A. Achstein, C. Young, A. Knorr, E. Malic, U. Woggon, N. Owschimikow*, and X. Li*, Phonon-Assisted Intervalley Scattering Determines Ultrafast Exciton Dynamics in MoSe2 Bilayers, Physical Review Letters 127, 157403 (2021).

7.     S. Zhang, D. Huang, L. Gu, Y. Wang, and S. Wu, Substrate dopant induced electronic inhomogeneity in epitaxial bilayer graphene, 2D Materials 8, 035001 (2021).

8.     Zeyuan Sun#, Yangfan Yi#, Tiancheng Song, Genevieve Clark, Bevin Huang, Yuwei Shan, Shuang Wu, Di Huang, Chunlei Gao, Zhanghai Chen, Michael McGuire, Ting Cao, Di Xiao, Wei-Tao Liu, Wang Yao, Xiaodong Xu*, Shiwei Wu*. Giant nonreciprocal second-harmonic generation from antiferromagnetic bilayer CrI3. Nature 572, 497–501 (2019).

9.     J. Cheng, D. Huang, T. Jiang, Y. Shan, Y. Li, S. Wu, and W. T. Liu*, Chiral selection rules for multi-photon processes in two-dimensional honeycomb materials, Optics Letters 44, 2141-2144 (2019).

10.  Y.W. Shan, Y.G. Li, D. Huang, Q.J. Tong, W. Yao, W.T. Liu, S.W. Wu*, Stacking symmetry governed second harmonic generation in graphene trilayers, Science Advances 4, eaat0074 (2018).

11.  S. Zhang, C. G. Wang, M. Y. Li, D. Huang, L. J. Li, W. Ji*, S. W. Wu*, Defect Structure of Localized Excitons in a WSe2 Monolayer. Physical Review Letters 119, 046101 (2017).

12.  Y. Wang, S. Zhang, D. Huang, J. X. Cheng, Y. G. Li, S. W. Wu*, Screening effect of graphite and bilayer graphene on excitons in MoSe2 monolayer. 2D Materials 4, 015021(2017)

13.  S. Zhang, D. Huang, S. W. Wu*, A cryogen-free low temperature scanning tunneling microscope capable of inelastic electron tunneling spectroscopy. Review of Scientific Instruments 87, 063701 (2016).

14.  T. Jiang, H.R. Liu, D. Huang, S. Zhang, Y.G. Li, X.G. Gong*, Y.R. Shen, W.T. Liu*, S.W. Wu*, Valley and band structure engineering of folded MoS2 bilayers. Nature Nanotechnology 9, 825-829 (2014).