基本信息
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个人简介
Professor Sheng's research is in the area of condensed matter physics. He has pioneered the study of liquid crystal-substrate interaction while at the RCA David Sarnoff Research Laboratory, and established the mechanisms of charging-energy correlated hopping and fluctuation-induced tunneling conduction in disordered materials. While at Exxon Corporate Research Center from 1979-1994, Professor Sheng's interest broadened into wave interaction and scattering in disordered systems, and porous media. The study of nanotechnology became his main focus after joining the HKUST in 1994, where he led the efforts in the discovery of superconducting behavior in ultrathin carbon nanotubes, and the giant electrorheological effect in suspensions of nanoparticles. He is also the inventor of locally resonant sonic materials that can break the mass density law in shielding low frequency sound. More recently, Professor Sheng and his colleagues resolved the classical problem of moving contact line in two phase immiscible flows, by applying Onsager's principle of minimum energy dissipation to the derivation of hydrodynamic boundary conditions.
Professor Sheng has served as a member of the Executive Editorial Board, Solid State Communications; a divisional associate editor of Physical Review Letters; an editorial board member of the New Journal of Physics, the Proceedings of Royal Society A, the SIAM Journal of Mathematics: Multiscale Modeling, Analysis and Simulations, as well as advisory board member of the Research Center for Applied Sciences, Academia Sinica. He is currently a senior fellow of the Institute for Advanced Study, HKUST, a visiting Chair Professor of the National Chiao Tung University, Taiwan. He has also served as a national board member of Kavli Institute of Theoretical Physics, China, and as a member of consulting committees to various universities in China and Taiwan.
Research Areas
Condensed matter physics: hydrodynamic boundary conditions, ultrasound tunneling and focusing through phononic crystals, superconductivity in 4-angstrom single-walled carbon nanotubes, negative dynamic mass density and locally resonant sonic materials, electro-and magnetorheological fluids, generic wave characteristics in heterogeneous materials, composites and porous media, liquid crystals, nano materials, soft condensed matter physics, and wave functional materials.
Professor Sheng has served as a member of the Executive Editorial Board, Solid State Communications; a divisional associate editor of Physical Review Letters; an editorial board member of the New Journal of Physics, the Proceedings of Royal Society A, the SIAM Journal of Mathematics: Multiscale Modeling, Analysis and Simulations, as well as advisory board member of the Research Center for Applied Sciences, Academia Sinica. He is currently a senior fellow of the Institute for Advanced Study, HKUST, a visiting Chair Professor of the National Chiao Tung University, Taiwan. He has also served as a national board member of Kavli Institute of Theoretical Physics, China, and as a member of consulting committees to various universities in China and Taiwan.
Research Areas
Condensed matter physics: hydrodynamic boundary conditions, ultrasound tunneling and focusing through phononic crystals, superconductivity in 4-angstrom single-walled carbon nanotubes, negative dynamic mass density and locally resonant sonic materials, electro-and magnetorheological fluids, generic wave characteristics in heterogeneous materials, composites and porous media, liquid crystals, nano materials, soft condensed matter physics, and wave functional materials.
研究兴趣
论文共 623 篇作者统计合作学者相似作者
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APPLIED PHYSICS LETTERSno. 26 (2023)
The European physical journal E, Soft matter and biological physics/The European physical journal E, Soft matterno. 6 (2023)
arXiv (Cornell University) (2023)
Physical review appliedno. 4 (2022)
New journal of physicsno. 11 (2022): 113027-113027
HAL (Le Centre pour la Communication Scientifique Directe) (2022)
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作者统计
#Papers: 622
#Citation: 40371
H-Index: 92
G-Index: 186
Sociability: 7
Diversity: 0
Activity: 0
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