Paper Publications
- [1] 1.Z. K. Li, X. D. Qin, Z. W. Zhu, et al., Cu-based metallic glass with robust activity and sustainability for wastewater treatment, Journal of Materials Chemistry A, 8 (2020) 10855.
- [2] 2.Z. K. Li, X. D. Qin, Z. W. Zhu, et al., Laminar TiZr-based bulk metallic glass composites with improved mechanical properties, Materials Science & Engineering A, 726 (2018) 231-239.
- [3] 3.Z. K. Li, X. D. Qin, D. M. Liu, et al., Effect of Y, Gd, La and Ce on the glass forming ability and mechanical properties of Zr(-Ti)-Cu-Ni-Al metallic glasses. Rare Metal Materials and Engineering, 47 (2018) 2755-2760.
- [4] 4.Z. K. Li, H. M. Fu, P. F. Sha, et al., Atomic interaction mechanism for designing the interface of W/Zr-based bulk metallic glass composites, Scientific Reports, 5 (2015) 8967.
- [5] 5.Z. K. Li, G. F. Ma, H. M. Fu, et al., The spreading kinetics and precursor film characteristics of Zr-based alloy melt on W substrate, Materials Letters, 98 (2013) 98–101.
- [6] 6.Z. W. J. Qiu, Z. K. Li, H. M. Fu, et al., Corrosion mechanisms of Zr-based bulk metallic glass in NaF and NaCl solutions, Journal of Materials Science & Technology, 46 (2020) 33–43.
- [7] 7.X. D. Qin, Z. K. Li, Z. W. Zhu, et al., Fenton-like degradation of coke wastewater using Fe78Si8B14 and Fe73.5Nb3Cu1Si13.5B9 metallic glasses. Journal of Physics and Chemistry of Solids, 2019, 133: 85-91.
- [8] 8.Z. W. J. Qiu, Z. K. Li, H. M. Fu, et al., Effect of pH and NaF addition on corrosion of Zr-based bulk metallic glass in Na2SO4-containing solution, Intermetallics, 129 (2021) 107034.
- [9] 9.X. D. Qin, Z. K. Li, Z. W. Zhu, et al., Fe-based metallic glass: An efficient and energy-saving electrode material for electrocatalytic degradation of water contaminants. Journal of Materials Science & Technology, 34 (2018) 2290-2296.
- [10] 10.蔡诗雅, 李正坤, 刘丁铭, 等, TiZr基非晶熔体与Ti合金的界面特征和熔体层结构, 中国有色金属学报, 28(1) (2018) 53-60.
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