个人简历
Prof. Tang received his B.A. degree in chemical physics from the University of Science and Technology of China in 2003. Then, he began his Ph.D. study with Professor Colin Nuckolls at Columbia University, New York in 2003 and received his Ph.D. in 2008. In October 2008, he started his postdoctoral research in Prof. Peidong Yang's groups at the University of California at Berkeley. He joined the chemistry faculty at the University of Hong Kong in the October of 2012.
研究领域
"""""Nanoscience bridges the macroscopic world and the atomic/ molecular world and provides the ultimate control of materials' electrical and mechanical properties. By using this recently developed tool
近期论文
X. Zhan, J. Zheng, Y. Zhao, B. Zhu, R. Cheng, J. Wang, J. Liu, J. Tang, J. Tang. From Strong Dichroic Nanomotor to Polarotactic Microswimmer. Adv. Mater. 1903329 (2019) [pdf]\r\rX. Zhan, J. Wang, Z. Xiong, X. Zhang, Y. Zhou, J. Zheng, J. Chen, S. Feng, J. Tang. Enhanced Ion Tolerance of Electrokinetic Locomotion in Polyelectrolyte Coated Microswimmer . Nat. Commun. 10, 3921. (2019) [pdf]\r\rJ. Zheng, J. Wang, Z. Xiong, Z. Wan, X. Zhan, S. Yang, J. Chen, J. Dai, J. Tang. Full Spectrum Tunable Visible‐Light‐Driven Alloy Nanomotor. Adv. Funct. Mater. 29, 1901768 (2019) [pdf]\r\rI. X. Yin, O.Y.Yu, I. S. Zhao, M. L. Mei, Q. L. Li, J. Tang, C. H. Chu, Arch. Oral Biol. 102, 106-112, (2019) [pdf]\r\rJ. Wang, Z. Xiong, J. Zheng, X. Zhan, J. Tang, Light-Driven Micro/Nanomotor for Promising Biomedical Tools: Principle, Challenge, and Prospect. Acc. Chem. Res. 51, 1957-1965 (2018) [pdf]\r\rZ. Xiong, X. Wang, H. K. Lee, J. Zhan, Y. Chen, J. Tang, Thermal Transport in Supported Graphene Nanomesh. ACS Appl. Mater. Interfaces 10, 9211-9215 (2018) [pdf]\r\rC. Zhou, H. P. Zhang, J. Tang, W. Wang, Photochemically Powered AgCl Janus Micromotors as a Model System to Understand Ionic Self-Diffusiophoresis. Langmuir, 34, 3289-3295 (2018) [pdf]\r\rM. Wei, C. Zhou, J. Tang, W. Wang, Catalytic Micromotors Moving Near Polyelectrolyte-Modified Substrates: The Roles of Surface Charges, Morphology, and Released Ions ACS Appl. Mater. Interfaces, 10, 2249 (2018) [pdf]\r\rZ. C. Su, H. G. Ye, Z. Xiong, Q. Lou, Z. Zhang, F. Tang, J. Tang, J. Y. Dai, C. X. Shan, S. J. Xu, Understanding and manipulating luminescence in carbon nanodots. Carbon, 2018, 126 , 58-64 (2018) [pdf]\r\rJ. Zheng, B. Dai, J. Wang, Z. Xiong, Y. Yang, J. Liu, X. Zhan, Z. Wan, J. Tang, Orthogonal Navigation of Multiple Visible-Light-Driven Artificial Microswimmers. Nat. Commun. 8, (1), 1438. (2017) [pdf]\r\rZ. Xiong, Y. Cai, X. Ren, B. Cao, J. Liu, Z. Huo, J. Tang, Solution-Processed CdS/Cu2S Superlattice Nanowire with Enhanced Thermoelectric Property. ACS Appl. Mater. Interfaces 9 (38), 32424 (2017) [pdf]\r\rZ. Xiong, J. Chen, J. Wang, Y. Cai, X. Liu, Z. Su, S.J. Xu, A. Khan, W. Li, J. Bian, G. Li, M. Huang, J. Tang. Electrochemical Half-Reaction Assisted Graphene Hybrid Phototransistor. NPG Asia Mater, 9, e436 (2017) [pdf]\r\rJ. Wang, Z. Xiong, X. Zhan, B. Dai, J. Zheng, J. Liu, and J. Tang, A Silicon Nanowire as a Spectral Tunable Light-Driven Nanomotor. Adv. Mater.29, (30), 1701451 (2017) [pdf]\r\rJ. Bian, L. Xi, J. Li, Z. Xiong, C. Huang, K. M. Lange, J. Tang, M. Shalom, R.-Q. Zhang, C=C π Bond Modified Graphitic Carbon Nitride Films for Enhanced Photoelectrochemical Cell Performance. Chem. Asian J.12, 1005 (2017) [pdf]\r\rB. Dai, J. Wang, Z. Xiong, X. Zhan, W. Dai, C. Li, S. Feng, and J. Tang, Programmable artificial phototactic microswimmer. Nat. Nanotechnol. 11, 1087–1092(2016)[pdf]\r\rY. Su, C. Liu, S. Brittman, J. Tang, A. Fu, N. Kornienko, Q. Kong, P. Yang, Single-nanowire photoelectrochemistry. Nat. Nanotechnol. 11, 609-612, (2016)[pdf]\r\rA. Khan, S. Lee, T. Jang, Z. Xiong, C. Zhang, J. Tang, L. J. Guo, W.-D. Li, High-Performance Flexible Transparent Electrode with an Embedded Metal Mesh Fabricated by Cost-Effective Solution Process. Small, (2016)[pdf]\r\rJ. Lim, H. Wang, J. Tang, S. C. Andrews, J. Lee, D. Lee, T. P. Russell, P. Yang, Simultaneous Thermoelectric Property Measurement and Incoherent Phonon Transport in Holey Silicon. ACS Nano, 10 (1), 124-132 , (2016)[pdf]\r\rX. Liu, Q. Sun, A. M. C. Ng, A. B. Djurisic, M. Xie, B. Dai, J. Tang, C. Surya, C. Liao, K. Shih, An alumina stabilized graphene oxide wrapped SnO2 hollow sphere LIB anode with improved lithium storage. RSC Advances 5, 100783 (2015)[pdf]\r\rC. Liu, J. Tang, H. Chen, B. Liu, P. Yang, A Fully Integrated Nanosystem of Semiconductor Nanowires for Direct Solar Water Splitting, Nano Lett., 13 (6),2989-2992.(2013)[pdf]\r\rC. Liu, J. Sun, J. Tang, P. Yang, Zn-Doped p-Type Gallium Phosphide Nanowire Photocathodes from a Surfactant-Free Solution Synthesis. Nano Lett. 12, 5407-5411, (2012)[pdf]
