研究方向

1. 非晶合金、高熵合金的形成机制与结构-性能关联

2. 纳米多孔金属的制备与性能探索

3. 材料多尺度计算模拟、机器学习

教育经历

2001/09-2008/06  百盈彩票app   材料学               博士

1996/09-2000/07  湘潭大学       材料学                  学士

工作经历

2018/07 至今     百盈彩票app   百盈彩票app      研究员

2015/09-2016/09  佐治亚理工学院  材料科学与工程系             访问学者

2011/06-2017/06  百盈彩票app   百盈彩票app  副研究员

2009/08-2012/05  香港理工大学   机械工程系                         博士后

2008/07-2011/06  百盈彩票app   百盈彩票app  讲师

荣    誉

教育部新世纪优秀人才, 2013年

北京市科技新星,      2010年

奖    励

2018年国家自然科学二等奖，块体非晶合金的结构和强韧化研究

2017年教育部自然科学一等奖，高熵合金的相形成规律及组织性能研究

2011年教育部自然科学二等奖，块体非晶合金的结构与强韧化研究

论文著作

[1] Du, Q., Liu, X. J., Fan H., Zeng, Q., Wu Y., Wang, H., Chatterjee, D., Ren, Y., Ke, Y., Voyles, P. M., Lu, Z., & Ma, E. (2019). Reentrant glass transition leading to ultrastable metallic glass, Materials Today, https://doi.org/10.1016/j.mattod.2019.09.002
[2] Lei, Z., Liu, X., Wang, H., Wu, Y., Jiang, S., & Z. Lu. (2019). Development of advanced materials via entropy engineering. Scripta Materialia, 165, 164-169.
[3] Yuan, Y., Wu, Y., Yang, Z., Liang, X., Lei, Z., Huang, H., Wang, H., Liu, X., An, K., Wu, W., & Z. Lu. (2019). Formation, structure and properties of biocompatible TiZrHfNbTa high-entropy alloys. Materials Research Letters, 7, 225-231.
[4] Li, R., Liu, X., Wang, H., Wu, Y., Chan, K. C., & Lu, Z. (2019). Sandwich nanoporous framework decorated with vertical CuO nanowire arrays for electrochemical glucose sensing. Electrochimica Acta, 299, 470–478.
[5] Yang, M., Liu, X., Wu, Y., Wang, H., Wang, J., Ruan, H., & Lu, Z. (2019). Elastic modulus change and its relation with glass-forming ability and plasticity in bulk metallic glasses. Scripta Materialia, 161, 62–65.
[6] Lei, Z., Liu, X., Wu, Y., Wang, H., Jiang, S., Wang, S., Hui, X., Wu, Y., Gault, B., Kontis, P.,
Raabe, D., Gu, L., Zhang, Q., Chen, H., Wang, H., Liu, J., An, K., Zeng, Q., Nieh, T. G., & Lu, Z. (2018). Enhanced strength and ductility in a high-entropy alloy via ordered oxygen complexes. Nature, 563, 546–550.
[7] Liu, X. J., Wang, S. D., Wang, H., Wu, Y., Liu, C. T., Li, M., & Lu, Z. P. (2018). Local structural mechanism for frozen-in dynamics in metallic glasses. Physical Review B, 97(13), 134107.
[8] Liu, X. J., Wang, S. D., Fan, H. Y., Ye, Y. F., Wang, H., Wu, Y., & Lu, Z. P. (2018). Static atomic-scale structural heterogeneity and its effects on glass formation and dynamics of metallic glasses. Intermetallics, 101, 133–143.
[9] Li, R., Liu, X., Wang, H., Wu, Y., & Lu, Z. (2018). High-performance hybrid electrode decorated by well-aligned nanograss arrays for glucose sensing. Biosensors and Bioelectronics, 102, 288–295.
[10] Jia, B., Liu, X. J., Wang, H., Wu, Y., & Lu, Z. P. (2018). Microstructure and mechanical properties of FeCoNiCr high-entropy alloy strengthened by nano-Y 2 O 3 dispersion. Science China Technological Sciences, 61(2), 179–183. https://doi.org/10.1007/s11431-017-9115-5
[11] Lei, Z., Liu, X., Li, R., Wang, H., Wu, Y., & Lu, Z. (2018). Ultrastable metal oxide nanotube arrays achieved by entropy-stabilization engineering. Scripta Materialia, 146, 340–343.
[12] Wang, J., Hu, Z., Li, R., Liu, X., Xu, C., Wang, H., … Lu, Z. (2018). Influences of Au ion radiation on microstructure and surface-enhanced Raman scattering of nanoporous copper. Nanotechnology, 29, 184001.
[13] Li, F., Zhang, H., Liu, X., Dong, Y., Yu, C., & Lu, Z. (2018). Effects of Al addition on atomic structure of Cu-Zr metallic glass. Journal of Applied Physics, 123, 055101.
[14] Li, R., Liu, X. J., Wang, H., Wu, Y., Chan, K. C., & Lu, Z. P. (2018). Flexible glassy grid structure for rapid degradation of azo dye. Materials and Design, 155, 346–351.
[15] Yang, M., Liu, X. J., Wu, Y., Wang, H., Wang, X. Z., & Lu, Z. P. (2018). Unusual relation between glass-forming ability and thermal stability of high-entropy bulk metallic glasses. Materials Research Letters, 6(9), 495–500.
[16] Fan, H. Y., Liu, X. J., Wang, H., Wu, Y., Wang, H., & Lu, Z. P. (2017). Mechanical heterogeneity and its relation with glass-forming ability in Zr-Cu and Zr-Cu-Al metallic glasses. Intermetallics, 90, 159–163.
[17] 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.
[18] 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.
[19] 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.
[20] 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.
[21] 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.
[22] 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.
[23] 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.
[24] 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.
[25] 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.
[26] 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.
[27] 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.
[28] 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.
[29] 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
[30] 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
[31] 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.

专    利

1. 刘雄军, 王晶，吕昭平，李睿，王辉，吴渊; 贵金属及过渡族金属纳米线及纳米网状材料的制备方法, 201710541055.7, 2018.11.27
2. 刘雄军, 贾蓓，吕宗阳，王辉，吴渊，吕昭平;  一种氧化物弥散强化ODS高熵合金及其制备方法，201610711659.7，2017.12.12
3. 刘雄军, 李睿，王辉，吴渊，吕昭平；纳米多孔铜/Cu(OH)2纳米线阵列传感器电极材料及其制备方法，201610645396.4， 2018.07.31
4. 刘雄军, 吕宗阳，王辉，贾蓓，吴渊，吕昭平; 一种多孔高熵合金及其制备方法，201610088222.2，2017.08.08
5. 刘雄军, 吕宗阳，王辉，贾蓓，吴渊，吕昭平; 一种用于污水降解的高熵合金及其制备方法, 201510561464.4, 2017.07.18
6. 刘雄军, 杨铭，杜清，王辉，吴渊，吕昭平; 一种Ce-Al-Cu-Ag系大块非晶合金及制备方法, 201410142751.7, 2015.11.25
7. 刘雄军, 李睿，王辉，吴渊，吕昭平； 一种基于Ag基非晶合金制备纳米多孔银的方法,     201310187669.1, 2015.06.10
8. 刘雄军，陈国良，惠希东，吕昭平，陈晓华；一种Zr-Cu-Al-Be系大块非晶合金及其制备方法，201010231050.2，2011.08.10
9. 吕昭平,李世颖,王辉,刘雄军,吴渊,何骏阳; 低热膨胀系数NaMxAlySiz高熵合金及制备方法, 201410319113.8, 2014.07.04

科研项目

1. 无序合金强韧化的结构起源与结构-性能关联，国家自然科学基金重大项目课题，参与，2017年-2022年
2. 大尺寸相变韧塑化非晶复合材料的形成机理与动态变形行为,国家自然科学基金委重点项目,参与,2015年-2020年
3. 面心立方单相固溶体高熵合金辐照损伤行为及其机理研究,国家自然科学基金面上项目，主持，2015年-2020年
3. 块体非晶合金原子结构的本征特性及形变的微观机制,国家自然科学基金面上项目，主持，2012年-2016年
4. 块体非晶合金原子尺度结构不均匀性与力学性能研究,教育部新世纪优秀人才支持计划，主持，2013年-2016年
5. 块体非晶合金的原子结构与玻璃形成能力，北京市“科技新星”计划，主持，2010年-2013年
6. 无长程扩散条件下非晶合金原子结构有序化的演变规律及形成机制,国家自然科学青年基金，主持，2010年-2012年
7. 非晶态合金短/中程序原子结构的形成机制，教育部博士点基金, 主持，2010年-2012年
8. 柔性纳米多孔/非晶复合材料的形成机理及其电解水制氢性能研究，百盈彩票app自主课题，主持，2018年-2020年
9. 基于非晶合金制备纳米多孔银的微结构调控与性能研究，中央高校基本科研业务费，主持，2012年-2014年
10. 多孔高熵合金的制备与性能研究，中央高校基本科研业务费，主持，2014年-2016年

学术兼职

1. 国际学术期刊Biosensor and Bioelectronics、Nanoscale、APL、Science China-Materials、Scientific Reports、Intermetallics、J. Alloys and Compounds、Materials Letters、Materials and Design、Computational Materials Science、JOM、JMST、J. Non-crystalline Solids、Science China Technological Science等期刊审稿人。
2. 国家自然科学基金、北京市自然科学基金、教育部学位论文等评审专家。
3. 中国材料学会金属间化合物与非晶合金分会，干事
4. 中国材料学会，高级会员；美国TMS协会，会员