ORCID:https://orcid.org/0000-0001-5736-4188
Google Scholar:https://scholar.google.com/citations?user=Fi6WlW0AAAAJ
Personal Website:https://chenw3.github.io/
Education:
2017.05 - 2021.05 Ph.D. Mechanical Engineering, The University of Hong Kong
2015.08 - 2017.01 M.S. Chemical Engineering, Carnegie Mellon University
2011.08 - 2015.07 B.E. Chemical Engineering and Processing, China University of Petroleum-Beijing
Employment History:
2024.12 - Present Assistant Professor, Institute for Advanced Study, Shenzhen University
2021.05 - 2024.11 Postdoctoral Fellow, Mechanical Engineering,The University of Hong Kong
2017.02 - 2017.05 Research Assistant, Mechanical Engineering,The University of Hong Kong
Research Interests:
Phonon/Ionic /Electron transport, Lattice dynamics, Solid-solid phase transition
Research Grants:
Anharmonicity and disordered phonon scattering in superionic conductors and their impacts on thermal conduction, NSCF (11874313), 2019-2022, Participated, Completed.
Selected Publications:
After Joining SZU:
(1)Chen Wangand Yue Chen. Thermal switching across the ultrafast amorphous to crystalline transition in Sc0.2Sb2Te3,Phys. Rev. B, 110(21):214202, 2024.
Before Joining SZU:
(1)Chen Wangand Yue Chen. Anisotropic phonon scattering and thermal transport property induced by the liquid-like behavior of AgCrSe2.Nano Lett., 23(8):3524-3531, 2023.
(2)Chen Wang, RuihuanCheng, and Yue Chen.Theoretical evaluation of the persistence of transverse phonons across a liquid-like transition in superionic conductor KAg3Se2.Chem. Mater., 35(4):1780-1787, 2023.
(3)Chen Wang, Qi Wang, Qian Zhang, Chen Chen, and Yue Chen. Intrinsic Zn vacancies-induced wavelike tunneling of phonons and ultralow lattice thermal conductivity in zintl phase Sr2ZnSb2.Chem. Mater., 34(17):7837-7844, 2022.
(4)Chen Wang, Jiangtao Wu, Zezhu Zeng, Jan Embs, Yanzhong Pei, Jie Ma, and Yue Chen. Soft-mode dynamics in the ferroelectric phase transition of GeTe.Npj Comput. Mater., 7(1):1-7, 2021.
(5)Chen Wangand Yue Chen. Highly selective phonon diffusive scattering in superionic layered AgCrSe2.Npj Comput. Mater., 6(1):1-6, 2020.
