刘雄军
个人信息Personal Information
教师英文名称:Liuxiongjun
职称:研究员(自然科学)
博士生导师
毕业院校:北京科技大学
学科:材料学
学历:研究生
学位:博士
所在单位:新金属材料国家重点实验室
电子邮箱:
- Li, R., Liu, X., Wang, H., Wu, Y., & Lu, Z. P. (2016). Bendable nanoporous copper thin films with tunable thickness and pore features. Corrosion Science, 104, 227–235..
- Lv, Z. Y., Liu, X. J., Jia, B., Wang, H., Wu, Y., & Lu, Z. P. (2016). Development of a novel high-entropy alloy with eminent efficiency of degrading azo dye solutions. Scientific Reports, 6, 34213.
- Yang, M., Liu, X. J., Ruan, H. H., Wu, Y., Wang, H., & Lu, Z. P. (2016). High thermal stability and sluggish crystallization kinetics of high-entropy bulk metallic glasses. Journal of Applied Physics, 119, 4955060.
- He, J. Y., Wang, H., Wu, Y., Liu, X. J., Mao, H. H., Nieh, T. G., & Lu, Z. P. (2016). Precipitation behavior and its effects on tensile properties of FeCoNiCr high-entropy alloys. Intermetallics, 79, 41–52..
- Fan, Z., Wang, H., Wu, Y., Liu, X. J., & Lu, Z. P. (2016). Thermoelectric high-entropy alloys with low lattice thermal conductivity. RSC Advances, 6(57), 52164–52170..
- Li, R., Liu, X. J., Wang, H., Zhou, D. Q., Wu, Y., & Lu, Z. P. (2016). Formation mechanism and characterization of nanoporous silver with tunable porosity and promising capacitive performance by chemical dealloying of glassy precursor. Acta Materialia, 105, 367–377..
- Song, W., Wu, Y., Wang, H., Liu, X., Chen, H., Guo, Z., & Lu, Z. (2016). Microstructural Control via Copious Nucleation Manipulated by In Situ Formed Nucleants: Large-Sized and Ductile Metallic Glass Composites. Advanced Materials, 8156–8161..
- He, J. Y., Wang, H., Huang, H. L., Xu, X. D., Chen, M. W., Wu, Y., Liu, X. J., Nieh, T. G., An, K., & Lu, Z. P. (2016). A precipitation-hardened high-entropy alloy with outstanding tensile properties. Acta Materialia, 102, 187–196..
- Zhang, F., Wu, Y., Lou, H., Zeng, Z., Prakapenka, V. B., Greenberg, E., Ren, Y., Yan, J., Okasinski, J. S., Liu, X., Liu, Y., Zeng, Q., & Lu, Z. (2017). Polymorphism in a high-entropy alloy. Nature Communications, 8, 15687..
- Fan, Z., Wang, H., Wu, Y., Liu, X., & Lu, Z. (2017). Thermoelectric performance of PbSnTeSe high-entropy alloys. Materials Research Letters, 5(3), 187–194..
- Jiang, S., Wang, H., Wu, Y., Liu, X., Chen, H., Yao, M., Gault, B., Ponge, D., Raabe, D., Hirata, A., Chen, M.,Wang, Y., & Lu, Z. (2017). Ultrastrong steel via minimal lattice misfit and high-density nanoprecipitation. Nature, 544(7651), 460–464..
- Yuan, Y., Wu, Y., Tong, X., Zhang, H., Wang, H., Liu, X. J., Ma, L., Suo, H. L., & Lu, Z. P. (2017). Rare-earth high-entropy alloys with giant magnetocaloric effect. Acta Materialia, 125, 481–489..
- He, J. Y., Wang, H., Wu, Y., Liu, X. J., Nieh, T. G., & Lu, Z. P. (2017). High-temperature plastic flow of a precipitation-hardened FeCoNiCr high entropy alloy. Materials Science and Engineering A, 686, 34–40..
- Li, R., Chan, K. C., Liu, X. J., Zhang, X. H., Liu, L., Li, T., & Lu, Z. P. (2017). Synthesis of well-aligned CuO nanowire array integrated with nanoporous CuO network for oxidative degradation of methylene blue. Corrosion Science, 126, 37–43..
- Huang, H., Wu, Y., He, J., Wang, H., Liu, X., An, K., Wu, W., Lu, Z. (2017). Phase-Transformation Ductilization of Brittle High-Entropy Alloys via Metastability Engineering. Advanced Materials, 29, 1701678..