逯文君博士,南方科技大学副教授/研究员(博/硕士生导师,独立PI),2020年加入南方科技大学机械与能源工程系。以6年时间在英国帝国理工材料科学与工程系完成本、博连读。博士毕业后获德国马普协会基金资助,赴德国马克斯普朗克钢铁研究所材料设计与高级表征部门进行博士后研究,合作导师Dierk Raabe院士与Gerhard Dehm教授。主要研究方向包括金属材料的设计、制备、加工以及力学性能调控、金属氢脆与腐蚀、晶界工程与相变、增材制造、高温合金、轻质合金、原位透射电镜(力、热、电、磁、气体与液体环境)、球差纠正扫描透射电子显微镜(STEM)及相关成像技术、联合电镜表征技术(透射电镜/三维原子探针/超低温聚焦离子束)等。逯文君博士在国际金属材料领域提出双相相变、纳米位错胞、双析出、纳米残余奥氏体、纳米层状结构、超低温抑制氢化物生成技术等创新理念,为新型高性能合金的设计研发提供了新思路和新方法;共发表SCI论文80余篇,包括Nature Materials 1篇、Advanced Materials 3篇、Materials Today 3篇、Nature Communications 6篇、Science Advances 1篇、Advanced Functional Materials 1篇、Physical Review Letters 1篇、Acta Materialia 12篇、Scripta Materialia 6篇等,其中第一或通讯作者论文30余篇,谷歌学术总引用超2000,h指数26;主持国家自然科学基金委、深圳市科创委、松山湖材料实验室开放课题等项目;在第四届中德“大数据时代的球差矫正和原位电子显微学与谱学研讨会”、新材料国际发展趋势高层论坛等国际学术会议上做特邀报告多次,并获新材料国际发展趋势高层论坛优秀青年科学家奖(2021);被评为Journal of Alloys and Compounds杂志杰出审稿人;受邀担任《Advanced Powder Materials》《中国有色金属学报》、《粉末冶金材料科学与工程》及《钢铁研究学报》期刊青年编委;入选全球前2%顶尖科学家名单;获英国TATA钢铁集团博士奖学金及德国马普协会奖学金。
研究领域:
◆ 金属材料设计、加工、组织与多功能特性
◆ 力学行为、强烈塑性变形
◆ 金属氢脆与腐蚀
◆ 晶界工程与相变
◆ 增材制造
◆ 高温合金
◆ 轻质合金
◆ 球差纠正扫描透射电子显微镜(STEM)及相关成像技术
◆ 原位透射电镜 (力、热、电、磁、气体与液体环境)
联合电镜表征技术(透射电镜/三维原子探针/超低温聚焦离子束)
工作经历:
◆2022.06-至今 机械与能源工程系| 南方科技大学 | 副教授/研究员
◆2020.11-2022.05 机械与能源工程系| 南方科技大学 | 助理教授/副研究员
◆2015.10-2020.9 Microstructure Physics and Alloy Design & Structure and Nano/Micromechanics
◆Max-Planck-Institut für Eisenforschung (德国马克斯普朗克钢铁研究所) | 博士后
教育经历:
◆ 2012.10-2015.10Materials Science and Engineering | Imperial College London (英国帝国理工大学) | 博士学位
◆ 2009.10-2012.06Materials Science and Engineering | Imperial College London (英国帝国理工大学) | 学士学位
所获荣誉:
◆ 2021年 新材料国际发展趋势高层论坛优秀青年科学家奖
◆ 2021年 入选全球前2%顶尖科学家名单
◆ 2018年 《Journal of Alloys and Compounds》杂志杰出审稿人
◆ 2015年 德国马普协会奖学金
◆ 2012年 英国TATA钢铁集团博士奖学金
社会兼职:
1) 担任《粉末冶金材料科学与工程》期刊青年编委
2) 担任《中国有色金属学报》中、英文版本第一届青年编委会委员
3) 担任《2021第三届先进结构材料实验设计与计算模拟论坛》大会-高温合金和核材料专题学术委员
4) 担任《Advanced powder materials》 杂志青年编委
5) 担任《钢铁研究学报》(中、英文版)第一届青年编委
6) Acta Materialia审稿人/Reviewer
7) Scripta Materialia审稿人/Reviewer
8) Materialia审稿人/Reviewer
9) Materials Characterization审稿人/Reviewer
10) Journal of alloys and compounds 审稿人/Reviewer
11) Materials and Design 审稿人/Reviewer
12) Thin Solid Films审稿人/Reviewer
13) Corrosion Science审稿人/Reviewer
科研项目:
(1)国家自然科学基金面上项目,基于纳米双析核壳结构调控的FCC低密度钢强韧化研究,项目编号:52371110,2024-01-01至2027-12-31,51万,在研,主持
(2)科技部重点研发青年科学家项目,面向钛铝合金的光电复合增材制造新原理,项目编号:2022YFB4600700,2022-12-01至2027-11-31,200万,在研,参与
(3)广东省基础与应用基础研究基金自然科学基金项目(面上项目),基于软硬双析出相设计的高铝轻质汽车钢变形机理研究,项目编号:20231515011510, 2023-01-01至2025-12-31, 10万元,在研,主持
(4)松山湖材料实验室开放课题重点项目,逆相变孪晶高熵合金的形变机理与热稳定性研究,项目编号:2021SLABFK05, 2022-01-01至2023-12-31, 20万元,在研,主持
(5)深圳市科创委-基础研究/面上项目,基于相变与析出的纳米孪晶金属的制备与性能研究,项目编号:JCYJ20210324104404012, 2021-11-01至2024-10-31, 60万元,在研,主持
(6)深圳市科创委-基础研究/面上项目,析出强化超高强钢的设计与性能优化研究,项目编号:JCYJ20220530115011026,2022-10-28至2025-10-31,30万元,在研,主持
(7)深圳市科创委-基础研究/面上项目,基于位错调控的SrTiO3陶瓷微观结构与力学性能研究,项目编号:JCYJ20230807093416034, 2023-11-26至2025-10-31,30万元,在研,主持
代表文章:
1.Z.G. Zhu, F.L. Ng, H.L. Seet, W.J. Lu*, C.H. Liebscher, Z.Y. Rao, D. Raabe, S. Mui Ling Nai*, Superior mechanical properties of a selective-laser-melted AlZnMgCuScZr alloy enabled by a tunable hierarchical microstructure and dual-nanoprecipitation, Materials Today, Vol. 52, pp. 90 (2022).(JCR一区,影响因子:30.731)
2.G. Wu, C. Liu, A. Brognara, M. Ghidelli, Y. Bao, S. Liu, X. Wu, W. Xia, H. Zhao, J. Rao, D. Ponge, V. Devulapalli*, W.J. Lu*, G. Dehm, D. Raabe*, Z. Li*, Symbiotic crystal-glass alloys via dynamic chemical partitioning, Materials Today, Vol. 51, pp. 6 (2021).(JCR一区,影响因子:30.731)
3.G. Wu, S. Balachandran, B. Gault, W.Z. Xia, C. Liu, Z.Y. Rao, Y. Wei, S.F. Liu, J. Lu, M. Herbig, W.J. Lu*, G. Dehm, D. Raabe*, Z.M. Li*, Ductile crystal-glass high-entropy nanocomposites with near theoretical strength; Advanced Materials, Vol.32, pp. 2002619 (2020) (JCR一区,影响因子:27.398)
4.Z.W. Wang*, W.J. Lu*, H. Zhao, C. H. Liebscher, J.Y. He, D. Ponge, D. Raabe, Z.M. Li*, Ultrastrong lightweight complex concentrated steels via dual-nanoprecipitation; (Accepted) Science Advances, (2020) (JCR一区,影响因子:13.116)
5.H. Zhao*, L. Huber, W.J. Lu*, N.J. Peter, D.Y. An, F. D. Geuser, G. Dehm, D. Ponge, J. Neugebauer, B. Gault*, D. Raabe, Interplay of Chemistry and Faceting at Grain Boundaries in a model Al-alloy, Physical Review Letters, Vol. 124, pp. 106102(2020) (JCR一区,影响因子:8.385)
6.Z.Y. Rao, B. Dutta, F. Körmann, W.J. Lu*, X.Y. Zhou, C. Liu, A. Kwiatkowski da Silva, U. Wiedwald, M. Spasova, M. Farle, D. Ponge, B. Gault, J. Neugebauer, D. Raabe, Z.M. Li*, Beyond solid solution high-entropy alloys: tailoring magnetic properties via spinodal decomposition; (Accepted) Advanced Functional Materials, (2020) (JCR一区,影响因子:16.836)
7.W.J. Lu, C. H. Liebscher, G. Dehm, D. Raabe, Z.M. Li*, Bidirectional transformation enables hierarchical nanolaminate dual-phase high-entropy alloys, Advanced Materials, Vol. 30, pp. 1804727 (2018) (JCR一区,影响因子:27.398)
8.Z.W. Wang*, W.J. Lu*, H. Zhao, J.Y. He, K. Wang, B.C. Zhou, D. Ponge, D. Raabe, Z.M. Li*, Formation mechanism of κ-carbides and deformation behavior in Si-doped FeMnAlC lightweight steels with near GPa yield strength, Acta Materialia, Vol. 198, pp. 258-270 (2020) (JCR一区,影响因子:7.656)
9.X.D. Tan*, D. Ponge*, W.J. Lu*, Y.B. Xu, H.S. He, J. Yan, D. Wu, D. Raabe, Joint investigation of strain portioning and chemical portioning in ferrite-containing TRIP-assisted steels, Acta Materialia, Vol. 186, pp. 374 (2020) (JCR一区,影响因子:7.656)
10.W.J. Lu, C.H. Liebscher, F.K. Yan, X.F. Fang, L.L. Li, J.J. Li, W.Q. Guo, G. Dehm, D. Raabe, Z.M. Li*, Interfacial nanophases stailize nanotwins in high-entropy alloys, Acta Materialia, Vol. 185, pp. 218 (2020) (JCR一区,影响因子:7.656)
11.W.Q. Guo, J. Su, W.J. Lu*, C.H. Liebscher*, C. Kirchlechner, Y. Ikeda, F. Kormann, X. Liu, Y.F. Xue, G. Dehm*, Dislocation-induced breakthrough of strength and ductility trade-off in a non-equiatoic high-entropy alloy, Acta Materialia, Vol. 185, pp. 45 (2020) (JCR一区,影响因子:7.656)
12.W.J. Lu, M. Herbig*, C. H. Liebscher, L. Morsdorf, R.K.W. Marceau, G. Dehm, D. Raabe, Formation of eta carbide in ferrous martensite by room temperature aging, Acta Materialia, Vol. 158, pp. 297-312 (2018) (JCR一区,影响因子:7.656)
13.Z.G. Zhu, W.L. Li,1, Q. B. Nguyen, X.H. An*, W.J. Lu*, Z.M. Li, F. L. Ng, S. M. L. Nai,*, J. Wei, Enhanced strength–ductility synergy and transformation-induced plasticity of the selective laser melting fabricated 304L stainless steel, Additive Manufacturing, Vol. 35, pp. 101300 (2020) (JCR一区,影响因子:7.002)
14.X.K. Zhong*, W.J. Lu*, B.K. Liao, B. Medgyes, J.Y. Hu, Y. Zheng, D.Z. Zeng, Z. Zhang, Evidence for Ag participating the electrochemical migration of 96.5Sn-3Ag-0.5Cu alloy, Corrosion Science, Vol. 156, pp. 10 (2019) (JCR一区,影响因子:6.479)
15.J.J. Li, W.J. Lu*, J. Gibson, S.Y. Zhang, S. Korte-Kerzel, D. Raabe*, Compatible deformation and extra strengthening by heterogeneous nanolayer composites, Scripta Materialia, Vol. 179, pp. 30 (2020) (JCR一区,影响因子:5.079)
16.H. Chang, S.Y. Zhang*, C. Liebscher, D. Dye, D. Ponge, C. Scheu, G. Dehm, D. Raabe, B. Gault*, W.J. Lu*, Could face-centered cubic titanium in cold-rolled commercially-pure titanium only be a Ti-hydride? Scripta Materialia, Vol. 178, pp. 39. (2020) (JCR一区,影响因子:5.079)
17.H. Luo, S. S. Sohn, W.J. Lu, L.L. Li, X.G. Li*, K. Chandrahaasan, Z.M. Li*, D. Raabe*, A strong and ductile medium-entropy alloy resists hydrogen 1 embrittlement and corrosion, Nature Communications, Vol. 11, pp. 3081 (2020) (JCR一区,影响因子:11.878)
18.H. Luo, W.J. Lu, X.F. Fang, D. Ponge, Z.M. Li*, D. Raabe*, Beating hydrogen with its own weapon: Nano-twin gradients enhance embrittlement resistance of a high-entropy alloy, Materials Today, Vol. 21, pp. 1003-1009 (2018) (JCR一区,影响因子:24.372)
19.Y.H. Chang, W.J. Lu, J. Guénolé, L. Stephenson, A. Szczpaniak, P. Kontis, A. Ackerman, F. Dear, I. Mouton, X.K. Zhong, S.Y. Zhang, D. Dye, C. Liebscher, D. Ponge, S. Korte-Kerzel, D. Raabe, B. Gault*, Ti and its alloys as examples of cryogenic focused ion beam milling of environmentally-sensitive materials, Nature Communications, Vol. 10, pp. 942 (2019) (JCR一区,影响因子:11.878)
20.S.S. Sohn*, A. Kwiatkowski da Silva, Y. Ikeda1, F. Körmann, W.J. Lu, W. Seok Choi, B. Gault, D. Ponge, J. Neugebauer, D. Raabe, Ultrastrong medium-entropy single-phase alloys designed via severe lattice distortion, Advanced Materials, DOI: 10.1002/adma.201807142 (2018) (JCR一区,影响因子:27.398)