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职业迁徙
个人简介
Prof. Wang’s current research centres on the nature-inspired and microfluidics-enabled engineering, joining biotechnology, energy technology, information technology and nano-/micro-technology. His work takes full advantage of nature-inspired structures, functions and mechanisms, and capabilities of microfluidics in terms of scalability and precise handling of small fluid volumes to develop innovative tools, and smart/functional materials via precisely engineering their micro-/nanostructures. Examples of innovative technologies and materials his team has developed include artificial blood vessels, bio-printing inks, chemoembolization microparticles, colloidosomes for smart drug-delivery, contamination-free fluidic processors, liquid-repellent materials, micro-actuators/motors/robots/sensors, multifunctional microfibers, scald-proof coatings, smart non-wetting liquid grippers, super anti-pathogen coatings, and super thermal conductors.
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Xing Cheng,Xin Zhuang,Yunsheng Deng, Yue Zhang, Kaimin Wang,Yulong Chen, Shiyang Gao,Jingfu Xu,Liqiu WANG
crossref(2024)
Research (Washington, D.C.) (2024): 0380-0380
Advanced materials (Deerfield Beach, Fla.)pp.e2407034-e2407034, (2024)
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER (2024): 107435
Materials Today Physics (2024): 101497
Lab on a Chipno. 12 (2023): 2798-2807
Micromachinesno. 12 (2023): 2201
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