2013.9-2019.7: School of Materials Science and Engineering, Shanghai University, Ph.D.;  2018.7-2018.12: Department of Materials Science and Engineering, City University of Hong Kong, Jointly Ph.D.;

2019.9-2021.2: Department of Materials Science and Engineering, City University of Hong Kong, Postdoctoral Research Fellow;

2021.2-2025.2: Department of Mechanical Engineering, National University of Singapore, Postdoctoral Research Fellow;

2025.2-Now: Chongqing Institute of Green and Intelligent Technology, Chinese Academy of Sciences, Project Professor.

Google Scholar: https://scholar.google.com/citations?hl=zh-CN&user=WPd2_kEAAAAJ.

ResearchGate: https://www.researchgate.net/profile/Shiwei-Wu.

1)    S.W. Wu, G. Wang*, Q. Wang, Y.D. Jia, Y.D. Jia, J. Yi, Q.J. Zhai, J.B. Liu, B.A. Sun, H.J. Chu, J. Shen, P.K. Liaw, C.T. Liu, T.Y. Zhang, Enhancement of strength-ductility trade-off in a high-entropy alloy through a heterogeneous structure, Acta Materialia, 2019, 165: 444-458. (TOP 1% ESI Highly Cited)

2)    Shiwei Wu, Hou Yi Chia, Tianlong Zhang, Yuefei Jia, Yongkun Mu, Qing Zhang, Yung Zhen Lek, Daijun Hu, Lei Fan, Wentao Yan*, A precipitation strengthened high entropy alloy with high (Al+Ti) content for laser powder bed fusion: Synergizing intrinsic hot cracking resistance and ultrahigh strength, Acta Materialia, 2023, 258: 119193.

3)    Yuefei Jia, Gengchen Li, Hongming Yang, Xiaochang Xie, Ping Yang, Long Xu, Zhibin Wu, Yongkun Mu, Kang Sun, Shiwei Wu*, Xilei Bian, Yandong Jia*, Gang Wang, Achieving ambient superformability in a lightweight refractory medium-entropy alloy via stagewise adaptive microstructural buffer, Journal of Materials Science & Technology, 2026, 248: 212-223. (Cover Paper)

4)    Long Xu, Hui Chen, Yuefei Jia, Dongpeng Wang, Shiwei Wu*, Yandong Jia, Gang Wang, ZixuGuo*, Yilun Xu*, Revealing effects of creep damage on high-temperature fatigue behavior for HfNbTiZr refractory high-entropy alloys: Experimental investigation and crystal-plasticity modelling, Journal of Materials Science & Technology, 2025, 231: 134-150.

5)    J.X. Zhu, Shiwei Wu*, C. Ren, Yuefei Jia*, B.X. Cao, J.L. Ren, T. Yang, P.K. Liaw, G. Wang*, Quad-heterostructure lamellar precipitation-strengthened high-entropy alloy overcomes strength-ductility trade-off from cryogenic to intermediate temperatures, Materials Research Letters, 2025, 13(4): 1-9.

6)    Qing Zhang, Zhouyang He, Yuefei Jia, Xilei Bian, Shiwei Wu*, Yuchi Cui*, Xiaodong Wang*, Synergistic effects of heterogeneous microstructure and phase transformation on plasticity enhancement in LPBF-processed eutectic high-entropy alloys, Journal of Alloys and Compounds, 2025, 1037: 182561.

7)    S.W. Wu, T Yang, B.X. Cao, J.H. Luan, Y.F. Jia, L Xu, Y.K. Mu, T.L. Zhang, H.J. Kong, X. Tong, J.C. Peng, G. Wang, Q.J. Zhai, J. Lu, C.T. Liu*, Multicomponent Ni-rich high-entropy alloy toughened with irregular-shaped precipitates and serrated grain boundaries, Scripta Materialia, 2021, 204: 114066.

8)    S.W. Wu, L. Xu, X.D. Ma, Y.F. Jia, Y.K. Mu, Y.D. Jia, G. Wang*, C.T. Liu. Effect of annealing temperatures on microstructure and deformation behavior of Al_0.1CrFeCoNi high-entropy alloy. Materials Science and Engineering A, 2021, 805: 140523.

9)    S.W. Wu, G. Wang*, J. Yi, Y.D. Jia, I. Hussain, Q.J. Zhai, P.K. Liaw, Strong grain-size effect on deformation twinning of an Al_0.1CoCrFeNi high-entropy alloy, Materials Research Letters, 2017, 5(4): 276-283. (“2013-2023” Outstanding Paper Award)

10)  Yuefei Jia, Shiwei Wu, Yongkun Mu, Long Xu, Chang Ren, Kang Sun*, Jun Yi, Yandong Jia, Wentao Yan, Gang Wang*, Efficient Coarse-Grained Superplasticity of a Gigapascal Lightweight Refractory Medium Entropy Alloy, Advanced Science, 2023, 10(12), 2207535. (Top 1% ESI Highly Cited)