江涛 教授博导 邮箱:tjiang@tongji.edu.cn 联系方式: |
上海市青联委员、上海市青科协会员,入选国家海外高层次人才计划青年项目、上海市青年五四奖章个人、 上海科技青年35人引领计划和上海市浦江人才计划,主要从事低维微纳结构及光电器件的非线性纳米光学和近场光学的研究。近五年承担三项国家自然科学基金,在Nature Nanotechnology、Nature Photonics、Advanced Materials等期刊发表文章二十余篇。担任中国激光杂志社青年编委会委员。相关工作入选2018年中国光学十大进展(基础研究类)。
2010年09月 - 2015年06月,复旦大学物理系,凝聚态物理博士
2006年09月 - 2010年07月,华东师范大学物理系,物理学学士
2023年11月 – 至今,上海自主智能无人系统科学中心,教授,博士生导师
2020年12月 – 至今,59599aa美高梅,教授,博士生导师
2020年03月–2020年11月,59599aa美高梅,特聘研究员,博士生导师
2016年06月 - 2019年12月,美国科罗拉多博尔德分校物理系,博士后
2015年06月 - 2016年05月,复旦大学物理系,科研助理
担任2021级光电专业本科班级的的班主任,担任2023级光电-应物双学士学位本科班级的副班主任
讲授本科课程包含:低维光物理与光测量(英文授课),专业导论(信息类)。
本科科创指导:常年作为本科生新生导师、学院导师和科创导师,为本科生发展提供多方位支撑。近几年,共计指导几十位本科生参与科创、竞赛,其中多数本科生从低年级持续到本科毕业都一直在实验室参与科创。这类本科生在进一步深造过程中,也获得了校内外研究生导师的高度认可。
在微纳尺度:观测光学现象,实现光电调控,开发光电器件
研究理念:真研究问题、研究真问题。
培养理念:发现学生特长有针对性培养,让每位研究生发现科学的美妙,掌握扎实的本领,毕业之时能在细分领域超过本人。
具体包含三个方面:创新表征微纳结构的光测量技术;深入揭示低维材料的光物理机制;探索基于微纳器件的光操控应用。
研究波段:可见光到中红外波段
研究对象:低维材料、光电器件、微纳结构
测量技术:超高空间分辨和超快时间分辨的扫描光学显微术
测量信号:荧光、拉曼、吸收谱、反射谱、光电流、二阶/三阶非线性光响应、近场光学信号
物理机制:微纳尺度下的光生电、电控光、光和物质相互作用、极化激元操控、准粒子相互作用、超快动力学
相关应用:光电探测、光电器件、全光开关、光场调控、光学显微表征系统开发
其他说明:近年来,实验室自主开发了多维光学显微系统。在领域上,也涉及到了较为广泛的科研合作,例如嫦娥五号月壤表征、文物成分分析、植物透光研究、玻璃性能测量等;在国际上,也和美国、俄罗斯、德国、加拿大、日本、韩国、巴西等多个国家的科研团队有密切交流,多位教授每年都会来实验室访问交流。
2023年,上海市青年五四奖章个人;
2021年,入选上海科技青年35人引领计划;
2018年,中国光学十大进展(基础研究类)。
2024年,入选第九届中德青年领导者会议参会代表;
2024年,美高梅优秀学生思想政治工作者;
2023年,美高梅优秀班主任;
2020年,入选国家级高层次青年人才计划;
2020年,入选上海市浦江人才计划。
Publications
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 23(23), 11252–11259 (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 Letters 23(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 Photonics 6, 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 Chemistry 13, 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 Letters 21, 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 Nanotechnology 14, 838-843 (2019). 本论文获得Nature Nano期刊后续追踪报道After publication story: Nature Nanotechnology 18, 1263 (2023).
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 Letters 122, 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 Letters 18, 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 Photonics 12, 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 Letters 18, 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 Nanotechnology 13, 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, Nanoscale 8, 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 Chemistry 8, 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 Nanotechnology 9, 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).