Research

Tao JiangMore

  • Title:Professor
  • Tel:tjiang@tongji.edu.cn
  • Office:Room 306 in North Mechanics Building (Optics Building)
  • Information of Tutors:Doctoral supervisor

Tao Jiang, the doctoral supervisor and professor at the School of Physics Science and Engineering, serves as the deputy director of the Institute of Precision Optical Engineering. He has been selected for the Overseas High-Level Talent Recruitment Programs, the first " Shanghai Science & Technology 35 Under 35" and the Shanghai Pujiang Program. His research focuses on multi-dimensional optical microscopy research and focused on the mechanisms and applications of nanooptics. He has conducted innovative research on nano-optoelectronic devices and ultra-high spatiotemporal resolution equipment, leading 2 projects funded by the National Natural Science Foundation. In recent years, he has published over twenty papers in journals such as Nature Nanotechnology and Nature Photonics, and the related achievements were selected as China's Top 10 Optical Breakthroughs in 2018.

  • Personal Experience
  • Research Areas
  • Teach Courses
  • Research Project
  • Academic Achievements
  • Honors and Awards

Profession

Professor, School of Physics Science and Engineering, Tongji University, Shanghai (03/2020-present)

Research associate, Department of Physics and JILA, University of Colorado, Boulder with Prof. Markus B. Raschke (06/2016-12/2019)

Research associate, Department of Physics, Fudan University, with Prof. Shiwei Wu (06/2015-05/2016)

Education

PhD (Physics)  Fudan University, China (06/2015)

MS (Physics)  Fudan University, China (07/2012)

BS (Physics)  East China Normal University, China (07/2010)



  Develop ultra-high spatial resolution and ultra-fast time resolution scanning optical microscopy from visible light to mid-infrared wavelengths, and use optical and low-temperature transport techniques to probe the electronic and optoelectronic properties of low-dimensional nanostructures. Our research encompasses three specific aspects: innovative optical and transport measurement techniques for characterizing nanostructures, in-depth exploration of the optical and optoelectronic physics of low-dimensional materials, and the exploration of optical/electrical control of nanodevices.

Undergraduate Courses:

Optical measurement of low-dimensional materials

Introduction to Information Science


Mainly direct two National Natural Science Foundation of China projects, a Shanghai Pujiang Talents Program, and a High-Level Foreign Expert Projects of the Ministry of Science and Technology -Personal Project.

Articles:

1. W. Luo, R. Song, B. G. Whetten, D. Huang, X. Cheng, A. Belyanin*, T. Jiang*, and M. B. Raschke*, Nonlinear Nano-Imaging of Interlayer Coupling in 2D Graphene-Semiconductor Heterostructures, Small 2307345 (2024).

2. Zeng, X.#, Wan, C.#, Zhao, Z., Huang, D.*, Wang, Z., Cheng, X., Jiang, T.*, Nonlinear optics of two-dimensional heterostructures. Front. Phys. 19(3), 33301 (2024). (#Contributed equally).

3. Zhou, Z.#, Song, R.#, Xu, J.#, Ni, X., Dang, Z., Zhao, Z., Quan, J., Dong, S., Hu, W., Huang, D., Chen, K.*, Wang, Z., Cheng, X., Raschke, M. B.*, Alù, A.*, Jiang, T.*, Gate-Tuning Hybrid Polaritons in Twisted α-MoO3/Graphene Heterostructures. Nano Letters (2023). (#Contributed equally).

4. Chen, Y., Yu, S.*, Jiang, T., Liu, X., Cheng, X., Huang, D.*, Optical two-dimensional coherent spectroscopy of excitons in transition-metal dichalcogenides. Frontiers of Physics 19 23301 (2024).

5. Wenjin Luo, Benjamin G. Whetten, Vasily Kravtsov, Ashutosh Singh, Yibo Yang, Di Huang, Xinbin Cheng, Tao Jiang*, Alexey Belyanin*, and Markus B. Raschke*, Ultrafast Nanoimaging of Electronic Coherence of Monolayer WSe2, Nano Letters23(5), 1767-1773 (2023).

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

7.F. Menges*, H. Yang, S. Berweger, A. Roy,T. Jiang, M. B. Raschke*, Substrate-enhanced photothermal nanoimaging of surface polaritons in monolayer graphene,APL Photonics6, 041301 (2021).

8.Y. Hu, S. J. Teat, W. Gong, Z. Zhou, Y. Jin, H. Chen, J. Wu, Y. Cui,T. Jiang, X. Cheng, W. Zhang*, Single Crystals of Mechanically Entwined Helical Covalent Polymers,Nature Chemistry13, 660-665 (2021).

9.M. A. May#,T. Jiang#, C. Du, K. D. Park, X. Xu, A. Belyanin*, M. B. Raschke*, Nanocavity Clock Spectroscopy: Resolving Competing Exciton Dynamics in WSe2/MoSe2 Heterobilayers,Nano Letters21, 522-528 (2021). (#Contributed equally).

10.T. Jiang, V. Kravtsov, M. Tokman, A. Belyanin*, M. B. Raschke*, Ultrafast coherent nonlinear nanooptics and nanoimaging of graphene,Nature Nanotechnology14, 838-843 (2019).

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

12.Y. Zhang, D. Huang, Y. W. Shan,T. Jiang, Z. H. Zhang, K. H. Liu, L. Shi, J. L. Cheng, J. E. Sipe, W. T. Liu*, S. W. Wu*, Doping-induced second harmonic generation in centrosymmetric graphene from quadrupole response,Physical Review Letters122,047401 (2019).

13.D. Huang#,T. Jiang#, Y. Zhang, Y. W. Shan, X. D. Fan, Z. H. Zhang, Y. Y. Dai, L. Shi, K. H. Liu, C. G. Zeng, J. Zi, W. T. Liu*, S. W. Wu*, Gate Switching of Ultrafast Photoluminescence in Graphene,Nano Letters18, 7985–7990 (2018). (#Contributed equally)

14.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 Photonics12, 430-436 (2018). (#Contributed equally)

15.T. Jiang#, H. Hong#, C. Liu, W. T. Liu, K. H. Liu*, S. W. Wu*, Probing Phonon Dynamics in Individual Single-walled Carbon Nanotubes,Nano Letters18, 2590 (2018).

16.Y. Y. Dai, Y. Y. Xia,T. Jiang, A. Chen, Y. W. Zhang, Y. J. Bai, G. Q. Du, F. Guan, S. W. Wu, X. H. Liu*, L. Shi*, J. Zi*, Dynamical Tuning of Graphene Plasmonic Resonances by Ultraviolet Illuminations,Adv. Optical Mater.6, 1701081 (2018).

17.K. D. Park,T. Jiang, G. Clark, X. Xu, M. B. Raschke*, Radiative control of dark excitons at room temperature by nano-optical antenna-tip Purcell effect,Nature Nanotechnology13, 59–64 (2018).

18.N. Guo*, W. D. Hu*,T. Jiang, F. Gong, W. J. Luo, W. C. Qiu, P. Wang, L. Liu, S. W. Wu, L. Liao, X. S. Chen, and W. Lu, High-quality infrared imaging with graphene photodetectors at room temperature,Nanoscale8, 16065 (2016).

19.J. X. Cheng#,T. Jiang#, Q. Q. Ji, Y. Zhang, Z. M. Li, Y. W. Shan, Y. F. Zhang, X. G. Gong, W. T. Liu, S. W. Wu*, Kinetic Nature of Grain Boundary Formation in As-grown MoS2Monolayers,Adv. Mater.27, 4069–4074 (2015). (#Contributed equally)

20.B. Kong, J. Tang, Y. Y. Zhang,T. Jiang, X. G. Gong, C. X. Peng, J. Wei, J. P. Yang, Y. C. Wang, X. B. Wang, G. F. Zheng*, C. Selomulya*, D. Y. Zhao*, Incorporation of well-dispersed sub-5-nm graphitic pencil nanodots into ordered mesoporous frameworks,Nature Chemistry8, 171–178 (2016).

21.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 MoS2bilayers.Nature Nanotechnology9, 825-829 (2014).

22.J. S. Miao, W. D. Hu*, N. Guo, Z. Y. Lu, X. Q. Liu, L. Liao*, P. P. Chen,T. Jiang, S. W. Wu, J. C. Ho, L. Wang, X. S. Chen, W. Lu,High-Responsivity Graphene/InAs Nanowire Heterojunction Near-Infrared Photodetectors with Distinct Photocurrent On/Off Ratios,Small, DOI: 10.1002/smll.201402312 (2014).

23.N. Guo, W. D. Hu*, L. Liao*, S. P. Yip, J. C. Ho, J. S. Miao, Z. Zhang, J. Zou,T. Jiang, S. W. Wu, X. S. Chen, W. Lu*,Anomalous and Highly Efficient InAs Nanowire Phototransistors Based on Majority Carrier Transport at Room Temperature,Advanced Materials, DOI: 10.1002/adma.201403664 (2014).

Patents

Grant Date

Patent name and Patent Number

Rank

2017.5

A method for electrically modulating the nonlinear optical effects of graphene

ZL201710300583.3

Third

2023 Shanghai Youth May Fourth Medal

2021 Shanghai Science & Technology 35 Under 35 (Shanghai S&T 35U35)

2020 Overseas High-Level Talent Recruitment Programs;

2020 Shanghai Pujiang Program

2018 China's Top 10 Optical Breakthroughs.