Resume
Dr. Ziao Tian received his B.S. and M.S. degrees from University of Shanghai for Science and Technology and Ph.D. degree in physics from Fudan University. He is an associate professor at Shanghai Institute of Microsystem and Information Technology. Before that, he worked as a postdoctoral researcher in the Department of Material Science at Fudan University. His research is focused on the development of micro/nanotubes fabricated by rolled-up nanotechnology and their functionalization with smart materials. He has published more than 30 peer-reviewed papers on Nature communications, Advanced materials, Nano letters, and Science advances.
EDUCATION
2012-2016 Ph. D., Physics, Fudan University
2009-2012 M. S., Energy engineering, University of Shanghai for Science and Technology
2005-2009 B. S. Energy engineering, University of Shanghai for Science and Technology
RESEARCH EXPERIENCE
2018-the present, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences
2016-2018 Posdoc. research, Fudan University
HONORS AND AWARDED RESEARCH FUNDS
2020-2023 Youth Program of National Natural Science Foundation of China
2020-2023 Shanghai Technology Innovation Action Plan Project
SELECTED PUBLICATIONS
1. Z.A. Tian, L. Zhang, Y.F. Fang, B.R. Xu, S.W. Tang, N. Hu, Z.H. An, Z. Chen, and Y.F. Mei, Deterministic Self-Rolling of Ultra-thin Nanocrystalline Diamond Nanomembranes for Three-Dimensional Tubular/Helical Architecture, Advanced Materials 29, 1604572 (2017).
2. Z.A. Tian, W. Huang, B.R. Xu, X.L. Li, and Y.F. Mei, Anisotropic Rolling and Controlled Chirality of Nanocrystalline Diamond Nanomembranes toward Biomimetic Helical Frameworks, Nano Letters 18, 3688 (2018).
3. Z.A. Tian#, B.R. Xu#, B. Hsu, L. Stan, Z. Yang, and Y.F. Mei, Reconfigurable Vanadium Dioxide Nanomembranes and Microtubes with Controllable Phase Transition Temperatures, Nano
Letters 18, 3017 (2018).
4. Z.A. Tian#, S.L. Li#, S. Kiravittaya, B.R. Xu, S.W. Tang, H.L. Zhen, W. Lu, and Y.F. Mei, Selected and Enhanced Single Whispering-Gallery Mode Emission from a Mesostructured Nanomembrane Microcavity, Nano Letters 18, 8035 (2018).
5. Z.A. Tian, Y. Wang, Y.M. Chen, B.R. Xu, Z.F. Di, Y.F. Mei, Inorganic stimuli-responsive nanomembranes for small-scale actuators and robots, Advanced Intelligent Systems, 2, 1900092 (2019).
6. B.R. Xu#, X.Y. Zhang#, Z.A. Tian#, D. Han, X.C. Fan, Y.M. Chen, Z.F. Di, T. Qiu, Y.F. Mei, Microdroplet-guided intercalation and deterministic delamination towards intelligent rolling origami, Nature Communications, 10, 5019 (2019).
7. Y. Wang, X. Li, B.R. Xu, Z.A. Tian*, Z.F. Di, Y.F. Mei*, Rolling origami with smart materials (News & Veiws), Science Bulletin, 64, 1080 (2019).
8. X.F. Zhou, Z.A. Tian, H.J. Kim, Y. Wang, B.R. Xu, R.B. Pan, Y.J. Chang, Z.F. Di, P. Zhou, Y.F. Mei, Rolling up MoSe2 Nanomembranes as a Sensitive Tubular Photodetector, Small, 15, 1902528 (2019).
9. J.Y. Yang, Y. Wang, L. Wang, Z.A. Tian*, Z.F. Di, Y.F. Mei*, Tubular/helical architecture construction based on rolled-up AlN nanomembranes and resonance as optical microcavity,Journal of Semicondors, 41(4), 042601 (2020).
10. L. Chang, Y. Wang, Z.A. Tian*, Y.F. Mei*, Low-dimensional vanadium dioxide nanomaterials: fabrication, properties and applications, Journal of Physics: Materials 3 (3), 032007 (2020).
