WANG, Tao

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WANG, Tao

Professor

Dr. Tao Wang received his Ph. D. degree in Physics from University of Paris-Sud (Paris 11) in 2012. He then worked at RWTH Aachen University, Germany as a Postdoc from 2012 to 2014. After that, he moved to National University of Singapore as a Research Fellow from 2014 to 2017. From 2017 to 2019, he worked as a Research Scientist at Institute of Materials Research and Engineering (IMRE), A*STAR, Singapore. In May 2019, he joined Soochow University as a full professor.

  

Email: wangtao2019@suda.edu.cn

  

Research Interests

Our research focuses on developing electrically-driven plasmon sources which could be used as an on-chip nanoscale light source for the new generation of photonic circuits. We also study the fundamental physics of light-matter interaction at the nanoscale using the near-field optical microscopy via our Neaspec SNOM system.

  

Selected Publications

  1. Highly Efficient On-Chip Direct Electronic-Plasmonic Transducers.

    W. Du#, T. Wang#, H. S. Chu, C. A. Nijhuis. (#Equal Contribution)

    Nature Photonics 11, 623–627 (2017).

    --Highlighted in Nature Photonics as the Cover story for the issue Oct 2017.

  2. On-chip Molecular Electronic Plasmon Sources Based on Self-assembled Monolayer Tunnel Junctions.

    W. Du#, T. Wang#, H. S. Chu, L. Wu, R. Liu, S. Sun, W. K. Phua, L. Wang, N. Tomczak, C. A. Nijhuis. (#Equal Contribution)

    Nature Photonics 10, 274-280 (2016).

    --Highlighted in News and Views of Nature Photonics: “Nano-optics: Launching plasmons with molecules”

    --Highlighted in Nature Photonics by TOC “Molecular Plasmon Sources”

  3. Optical Properties of Single Infrared Resonant Circular Microcavities for Surface Phonon Polaritons.

    T. Wang, P. Li, B. Hauer, D. N. Chigrin, T. Taubner.

    Nano Letters 13, 5051-5055 (2013).

  4. Surface-Enhanced Infrared Absorption Spectroscopy Using Charge Transfer Plasmons.

    T. Wang, Z. Dong, E. H. H. Koay, J. K. W. Yang.

    ACS Photonics 6, 1272-1278 (2019).

  5. Phonon-Polaritonic Bowtie Nanoantennas: Controlling Infrared Thermal Radiation at the Nanoscale.

    T. Wang#, P. Li#, D. N. Chigrin, A. J. Giles, F. J. Bezares, O. J. Glembocki, J. D. Caldwell, T. Taubner. (#Equal Contribution)

    ACS Photonics 4, 1753-1760 (2017).

  6. Excitation of Propagating Surface Plasmons with a Scanning Tunnelling Microscope.

    T. Wang, E. Boer-Duchemin, Y. Zhang, G. Comtet and G. Dujardin.

    Nanotechnology 22, 175201 (2011).

    --Highlighted in the Editorial: “Gems in Nanoscience”

  7. Molecular Electronic Plasmonics. (Invited Review)

    T. Wang, C. A. Nijhuis.

    Applied Materials Today 3, 73-86 (2016).

  

  

  

 

Edited by Juan Yang

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