一、个人简介

长期从事于在极端环境（超高真空，超强磁场，极低温度）下量子材料的扫描隧道谱学，电输运等的研究，和利用分子束外延技术的低维材料的生长研究。目前主要是利用极低温强磁场安德烈夫反射谱技术研究新奇超导量子材料，同时开展超导量子比特在物性探测方面的探索研究。

二、教育背景

博士，凝聚态物理 ，中国科学技术大学    09/2008 - 07/2013

硕士，凝聚态物理 ，中国科学技术大学    09/2006 - 07/2008

学士，应用物理学 ，安徽大学                 09/2002 - 07/2006

三、工作经历

深圳国际量子研究院，助理研究员 2023.11 – 迄今

南方科技大学，助理研究员 2021.02 – 2023. 10 Research Fellow

新加坡南洋理工大学(NTU),  新加坡 08/2017 – 01/2021 Assistant Specialist

加州大学欧文分校(UCI) ，美国  08/2015 - 06/2017 Postdoc

强磁场实验室(HFML)，荷兰Radboud大学，奈梅亨， 荷兰   09/2013 - 07/2015

四、代表性论文

1. Y. Que, A. Kumar, M.S. Lodge, Z.J. Tong, M.K.F Lai, W. Tao, Z. Cui, R.Shivajirao, J. Jia, S.E. Lee, B. Weber "Performance benchmarking of an ultra-low vibration laboratory to host a commercial millikelvin scanning tunnelling microscope." Nanotechnology 34, no. 45 (2023): 455704 (2023).

2. F. Bussolotti, H. Kawai, I. Verzhbitskiy, W. Tao, D. Ho, A. Das, J. Jia, S. Mukherjee, B. Weber, K.E.J Goh "Interlayer hybridization in a van der Waals quantum spin-Hall insulator/superconductor heterostructure." AIP Advances 13, no. 3 (2023).

3. J. Jia, E. Marcellina, A. Das, M.S. Lodge, B. Wang, D. Ho, R. Biswas, T.A. Pham, W. Tao, C.Y Huang, H. Lin, A. Bansil, S. Mukherjee & B. Weber "Tuning the many-body interactions in a helical Luttinger liquid." Nature Communications 13, no. 1: 6046 (2022).

4. W. Tao, Z.J Tong, A. Das, D. Ho, Y. Sato, M. Haze, J. Jia, Y. Que, F. Bussolotti, K. E. J. Goh, B. Wang, H. Lin, A. Bansil, S. Mukherjee, Y. Hasegawa, and B. Weber "Multiband superconductivity in strongly hybridized 1 T′− WTe 2/NbSe 2 heterostructures." Physical Review B 105, no. 9: 094512 (2022).

5. W. Tao, S. Singh, L. Rossi, J. W. Gerritsen, B. L. M. Hendriksen, A. A. Khajetoorians, P. C. M. Christianen, J. C. Maan, U. Zeitler and B. Bryant, “A low-temperature scanning tunneling microscope capable of microscopy and spectroscopy in a Bitter magnet at up to 34 T”, Rev. Sci. Instrum. 88, 093706 (2017).

6. W. Tao, L. M. Chen, X. M. Wang, C. Fan, and X. F. Sun, “Crystal growth and characterization of Haldane chain compound Ni (C₃H₁₀N₂)₂NO₂ClO₄”, J. Cryst. Growth. 327, 215 (2011).

7. X. F. Sun, W. Tao, X. M. Wang, and C. Fan, “Low-Temperature Heat Transport in the Low-Dimensional Quantum Magnet NiCl₂-4SC (NH₂)₂”, Phys. Rev. Lett. 102, 167202 (2009).

8. L. M. Chen, W. Tao, Z. Y. Zhao, Q. J. Li, W. P. Ke, X. M. Wang, X. G. Liu, C. Fan, and X. F. Sun, “Growth of (CH₃)₂NH₂CuCl₃ single crystals using evaporation method with different temperatures and solvents”, J. Cryst. Growth. 312, 3243 (2010).

9. X. M. Wang, C. Fan, Z. Y. Zhao, W. Tao, X. G. Liu, W. P. Ke, X. Zhao, and X. F. Sun, “Large magnetothermal conductivity of HoMnO₃ single crystals and its relation to the magnetic-field-induced transitions of magnetic structure”, Phys. Rev. B 82, 094405 (2010).

10. X. G. Liu, X. M. Wang, W. P. Ke, W. Tao, X. Zhao, and X. F. Sun, “Thermal conductivity of pure and Zn-doped LiCu₂O₂ single crystals”. Phys. Rev. B 83, 144408 (2011).

11. Z. Y. Zhao, X. M. Wang, C. Fan, W. Tao, X. G. Liu, W. P. Ke, F. B. Zhang, X. Zhao, and X. F. Sun, Magnetic phase transitions and magnetoelectric coupling of GdFeO3 single crystals probed by low-temperature heat transport, Phys. Rev. B 83, 014414 (2011).