Personal information
Name: Weitao Su, Prof.
Office: Room 438, 6th BuildingSouth, Hangzhou Dianzi Campus, Xiasha, Hangzhou
Current occupation: College ofSciences, Hangzhou Dianzi University
Telephone: (86)-571-87713558
E-Mail: suweitao@hdu.edu.cn
EDUCATION
Sep. 2001-July.2004, Master in MaterialScience, Department of Material Sciences and Engineering, CentralSouth University, P. R. China
Sep. 2004-July 2007, Ph. D in Scienceand Technology of Electronics, Shanghai Institute of TechnicalPhysics, CAS, P. R. China
Professional Working Experience
2007-2009, Lecture, College ofSciences, Hangzhou Dianzi University, Hangzhou, P. R. China
2009-2014, Associate Professor, Collegeof Materials and Environmental Engineering, Hangzhou DianziUniversity, Hangzhou, P. R. China
2015-2019, Professor, College ofMaterials and Environmental Engineering, Hangzhou Dianzi University,Hangzhou, P. R. China
2019- present, Professor ,College ofSciences, Hangzhou Dianzi University, Hangzhou, P. R. China
2013-2015, Postdoctoral Fellow, NingboInstitute of Materials, CAS, P. R. China
2011.06-2012.06,2014.03-07, 2015.09-2016.02, National Physical Laboratory of UK,Visiting Scientist.
RESEARCH INTEREST
Preparation of low dimensionalmaterials such as thin film materials, nano materials andtwo-dimensional materials;
Photoelectric properties of lowdimensional materials;
Super-resolution tip enhanced nearfield spectroscopy technology.
Featured Publications
[1]W. Su, Y. Li, L. Chen, D. Huo, K. Song, X. Huang, H. Shu,Nonstoichiometry induced broadband tunable photoluminescence ofmonolayer WSe2, Chemical Communications, 54 (2018)743-746.
[2]W. Su, N. Kumar, A. Krayev, M. Chaigneau, In situ topographicalchemical and electrical imaging of carboxyl graphene oxide at thenanoscale, Nature Communications, 9 (2018), 2891.
[3]W. Su, N. Kumar, S. Mignuzzi, J. Crain, D. Roy, Nanoscale mapping ofexcitonic processes in single-layer MoS2 usingtip-enhanced photoluminescence microscopy, Nanoscale, 8 (2016)10564-10569.
[4]W. Su, N. Kumar, N. Dai, D. Roy, Nanoscale mapping of intrinsicdefects in single-layer graphene using tip-enhanced Ramanspectroscopy, Chemical Communications, 52 (2016) 8227-8230.
[5] W. Su, N. Kumar, S.J. Spencer, N.Dai, D. Roy, Transforming bilayer MoS2 into single-layerwith strong photoluminescence using UV-ozone oxidation, NanoResearch, 8 (2015) 3878-3886