IntroductionMy name is Shuai Wang, an Associate Professor in the College of Mechanical and Electrical Engineering at Beijing University of Chemical Technology (BUCT). I received my Ph.D. in Solid Mechanics from the Institute of Mechanics in 2018. Before joining BUCT in May 2021, I conducted postdoctoral research at the Institute of Advanced Structure Technology, Beijing Institute of Technology. EducationWork ExperienceSocial PositionSocial ActivitiesResearch1. Bionic design of functional surface Through the design of surface properties and microstructure, the wetting state and transport behavior of nanoparticles and droplets on the surface were controlled. 2 carbon based nanoporous materials The mechanical and physical properties of macroporous materials composed of graphene, carbon nanotubes and other typical nanomaterials were studied to promote the development of new nanoporous materials. TeachingTheoretical mechanics Engineering mechanics PostgraduatesFundingNational Natural Science Foundation of China through Grants (#12002034) Vertical ProjectHorizontal ProjectPublications[1] Wang S, Wang C, Peng Z, Chen S. Moving Behavior of Nanodroplets on Wedge-Shaped Functional Surfaces [J]. The Journal of Physical Chemistry C, 2019, 123(3): 1798-805. [2] Wang S, Wang C, Peng Z, Chen S. Spontaneous dewetting transition of nanodroplets on nanopillared surface [J]. Nanotechnology, 2020, 31(22): 225502. [3] Wang S, Peng Z, Li J, Yang Y, Wang C, Chen S. Influencing factors of droplet aggregation on hierarchical wedge-shaped functional surfaces [J]. Computational Materials Science, 2020, 175: 109616. [4] Wang S, Wang C, Khan M B, Chen S. Microscopic deformation mechanism and main influencing factors of carbon nanotube coated graphene foams under uniaxial compression [J]. Nanotechnology, 2021, 32(34): 345704. [5] Wang S, Yao Y, Zhang B. Atomistic simulations of the graded residual elastic fields in metallic nanowires [J]. Results in Physics, 2021, 25: 104272. [6] Wang S, Yang T, Wang C, Liang L. The mechanical response and microscopic deformation mechanism of graphene foams tuned by long carbon nanotubes and short crosslinkers [J]. Physical Chemistry Chemical Physics, 2023, 25(1): 192-202. [7] Wang S, Wang C, Liang L, Chen S. The Role of Graphene in Graphene-Filled Carbon Nanotube Foam under Compression and the Corresponding Microscopic Deformation Mechanism [J]. Materials & Design, 2023, 231: 112043. [8] Wang S, Liang L, Chen S. Tensile strength and toughness of carbon nanotube-graphene foam composite materials and the corresponding microscopic influence mechanism [J]. Materials & Design, 2024, 237: 112529. AwardsIOP Trusted Reviewer PatentHonor RewardAdmissions Information |