2016年于香港城市大学机械工程与生物医学系取得博士学位

先进金属结构材料的微观组织与力学性能（高熵合金、高强纳米钢，大块金属玻璃、纳米非晶玻璃，3D打印钛合金）。擅长利用电子显微镜、三维原子探针（3D-APT）和理论模拟来理解结构材料的加工-结构-性能关系，在科技期刊上发表论文10余篇

2013-2016  香港城市大学 机械工程与生物医学系 博士

2016.09-2019.04  香港城市大学 机械工程与生物医学系 博士后

2016-2019  Acta Materialia, Scripta Materialia, Intermetallics, Scientific Reports, Science China Technological Sciences等杂志审稿人，2019年被Scripta Materialia评为outstanding reviewer

2019-2021  科研启动经费

[1] W.H. Liu, H. Gleiter, S. Lan, Y. Tong, H. Hahn, B. Sun, X.L. Wang, J.J. Kai, C.T. Liu, Cryogenic treatments and mechanical responses of nanoglasses and metallic glasses, Nano Letters, 18 4188-4194, 2018. IF: 12.080; JCR: Q1
[2] W.H. Liu, Z.P. Lu, J.Y. He, J.H. Luan, Z.J. Wang, B. Liu, Y. Liu, M.W. Chen, C.T. Liu, Ductile CoCrFeNiMox high entropy alloys strengthened by hard intermetallic phases, Acta Materialia, 116, 332-342, 2016. IF: 6.036; JCR: Q1; highly cited paper by web of science.
[3] W.H. Liu, Y. Wu, J.Y. He, T.G. Nieh, Z.P. Lu, Grain growth and the Hall–Petch relationship in a high-entropy FeCrNiCoMn alloy, Scripta Materialia, 68(7), 526-529, 2013. IF: 4.163, JCR: Q1, highly cited paper by web of science.
[4] W.H Liu, J. Y. He, H. L. Huang, H. Wang, Z. P. Lu, C. T. Liu, Effects of Nb additions on the microstructure and mechanical property of CoCrFeNi high-entropy alloys, Intermetallics, 60, 1-8, 2015. IF: 3.420, JCR: Q2.
[5] W.H. Liu, T. Yang, C. T. Liu, Precipitation hardening in CoCrFeNi-based High Entropy alloys, Materials Chemistry and Physics, 210, 2-21, 2017. IF: 2.210, JCR: Q2.
[6] W.H. Liu, Y. Wu, J.Y. He, Y. Zhang, C.T. Liu, Z.P. Lu, The phase competition and stability of high-entropy alloys, JOM, 66 (10), 1973-1983, 2014. IF: 2.145, JCR: Q2.
[7] J.Y. He, W.H. Liu, H. Wang, Y. Wu, X.J. Liu, T.G. Nieh, Z.P. Lu, Effects of Al addition on structural evolution and tensile properties of the FeCoNiCrMn high-entropy alloy system, Acta Materialia, 62, 105-113, 2014. IF: 6.036; JCR: Q1; highly cited paper by web of science.
[8] Y. Wu, W.H. Liu, X.L. Wang, D. Ma, AD. Stoica, T.G. Nieh, Z.B. He, Z.P. Lu, In-situ neutron diffraction study of deformation behavior of a multi-component high-entropy alloy, Applied Physics Letters, 104(5), 051910, 2014. IF: 3.495, JCR: Q1.
[9] J. H. Luan, Z. B. Jiao, W. H. Liu, W. X. Zhao, Z. P. Lu, G. Chen, Compositional and microstructural optimization and mechanical-property enhancement of cast Ti alloys basted on Ti-6Al-4V alloy, Materials Science and Engineering: A 704, 91-101, 2017. IF: 3.414, JCR: Q2, Citations: 4
[10] J.Y. He, C. Zhu, D.Q. Zhou, W.H Liu, T.G. Nieh, Z.P. Lu, Steady state flow of the FeCoNiCrMn high entropy alloy at elevated temperatures, Intermetallics. 55, 9-14, 2014. IF: 3.140, JCR: Q2.
[11] T. Yang, Y. L. Zhao, W. H. Liu, et al., Ductilizing brittle high-entropy alloys via tailoring valence electron concentrations of precipitates by controlled elemental partitioning. Materials Research Letters, 6, 600-606, 2018, IF: 6.161, JCR: Q1.
[12] T. Yang, Y. L. Zhao, W. H. Liu, et al. L12-strengthened high-entropy alloys for advanced structural applications. Journal of Materials Research, 2018: 1-15.