Assoc. Prof. Shuai Wang

1. Basic Information

Name: Shuai Wang

Gender: Male

Department: College of Mechanical and Electrical Engineering

Email: wangshuai2021@mail.buct.edu.cn

Education/Academic Credentials: Doctor

Office Location: Machinery Building 205, Beijing University of Chemical Technology, 15 Beisanhuan East Road, Chaoyang District, Beijing 100029, China

ORCID：0000-0001-5569-7157

DBLP:

2. Research direction:

Micro- and Nano-mechanics

Surface/interface mechanics

3. Introduction:

My 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.

4. Research:

5. Teaching:

6. Funding:

National Natural Science Foundation of China through Grants (#12002034)

7. Publications:

[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.

8. Awards: