先进金属材料研究所>>

王祖敏教授

先进金属材料研究所

Email:z.wang@tju.edu.cn

教育背景:

1996 – 2000 中国科学技术大学学士

2000 – 2005 中国科学技术大学博士

工作经历:

2005 – 2008 德国Max Planck学会金属研究所 博士后

2008 – 2015 德国Max Planck学会金属研究所 高级研究人员,课题组长

2015至今 今晚澳门福彩开奖结果查询_澳门三合网站_澳门官方三合图库资料,教授,博士生导师

研究方向

金属材料界面科学与工程

先进连接技术

金属材料表面氧化与腐蚀

薄膜材料

承担项目:

1.国家重点研发计划项目:“基于表面纳米活性化的ODS钨/铜合金界面调控与关键连接技术”,项目编号2017YFE0302600,2018–2021,327万元,项目负责人;

2.国家自然科学基金面上项目:“基于固相界面反应的金属纳米多孔化机理研究”,项目编号51971153,2020–2023,项目负责人;

3.国家自然科学基金面上项目:“锆基非晶合金的氧化过程与氧化机理研究”, 项目编号51571148,2016–2019,项目负责人;

4.国家重点研发计划项目“基于材料基因工程的传统制备加工工艺优化原理与方法”,课题1:“大型构件传统制备加工全流程高通量计算建模和模拟”, 项目编号2017YFB0701801,2017–2020,主要参加人。

主要学术成就、获奖及荣誉:

1.Günter Petzow Prize,德国马普学会,2013

发表文章、专利、专著:

代表性论文(*为通讯作者)

1.Y. Xu, Y., L. P. H. Jeurgens, Y. Huang, C. Li, Y. Liu, Z.M. Wang*, Effect of structural order on oxidation kinetics and oxide phase evolution of Al-Zr alloys.Corrosion Science165 (2020) 108407.

2.Y. Chen, J.Y. Wang, P. Schützendübe, Z.M. Wang*, E.J. Mittemeijer, Very low-temperature growth of few-layer graphene by Ni-induced crystallization of amorphous carbon in vacuum.Carbon159 (2020) 37-44.

3A. Zhang, Y. Chen, Z. Yang, S. Ma, Y. Huang, G. Richter, P. Schützendübe, C. Zhong, Z.M. Wang*, Enhanced Electrocatalytic Activities toward the Ethanol Oxidation of Nanoporous Gold Prepared via Solid-Phase Reaction. ACS Applied Energy Materials 3 (2020) 336-343.

4.Y. Xu, L.P.H. Jeurgens, P. Schützendübe, S. Zhu, Y. Huang, Y. Liu, Z.M. Wang*, Effect of atomic structure on preferential oxidation of alloys: amorphous versus crystalline Cu-Zr.Journal of Materials Science & Technology40 (2020) 128–134.

5.Y. Xu, Y. Chen, P. Schützendübe, S. Zhu, Y. Huang, Z. Ma, Y. Liu, Z.M. Wang*, Thermal oxidation of amorphous CuxZr1?x alloys: Role of composition-dependent thermodynamic stability. Applied Surface Science 503 (2020) 144376.

6.Y. Chen, Z. Hu, Y. Xu, J. Wang, P. Schuetzenduebe, Y. Huang, Y. Liu, Z.M. Wang*, Microstructure evolution and interface structure of Al-40 wt% Si composites produced by high-energy ball milling.Journal of Materials Science & Technology35 (2019) 512-519.

7.Z. Hu, Y. Xu, Y. Chen, P. Schuetzenduebe, J. Wang, Y. Huang, Y. Liu, Z.M. Wang*, Anomalous formation of micrometer-thick amorphous oxide surficial layers during high-temperature oxidation of ZrAl2.Journal of Materials Science & Technology35 (2019) 1479-1484.

8.J. Wang, P. Schuetzenduebe, Y. Qiu, J.Y. Wang, Y. Huang, Y. Liu, Z.M. Wang*, Tailoring metal film texture by use of high atomic mobility at metal-semiconductor interfaces. Applied Surface Science 475 (2019) 117-123.

9.Z. Xu, Y. Xu, A. Zhang, J. Wang, Z.M. Wang*.Oxidation of amorphous alloys.Journal of Materials Science & Technology34 (2018) 1977-2005.

10.Z.M. Wang*, E.J. Mittemeijer, Vapor-defect-solid growth mechanism for NanoNets utilizing natural defect networks in polycrystals.Materials & Design 150 (2018) 206-214.

11.Z.M. Wang*, L.P.H. Jeurgens, L. Gu, E.J. Mittemeijer, Heterogeneous growth of single crystals on polycrystals.Physical Review B95 (2017) 094109.

12. K. Weller, Z.M. Wang*, L.P.H. Jeurgens, E.J. Mittemeijer, “Oxidation Kinetics of Amorphous AlxZr1-x Alloys”,Acta Materialia103 (2016) 311-321.

13. Z.M. Wang*, L.P.H. Jeurgens, W. Sigle, E.J. Mittemeijer, “Observation and Origin of Extraordinary Atomic Mobility at Metal-Semiconductor Interfaces at Low Temperatures”,Physical Review Letters115 (2015) 016102.

14. K. Weller, Z.M. Wang*, L.P.H. Jeurgens, E.J. Mittemeijer, “Thermodynamics controls amorphous oxide formation: Exclusive formation of a stoichiometric amorphous (Al0.33Zr0.67)O1.83 phase upon thermal oxidation of Al–Zr”,Acta Materialia94 (2015) 134–142.

15. K. Weller, L.P.H. Jeurgens, Z.M. Wang*, E.J. Mittemeijer, “Thermal Oxidation of Amorphous Al0.44Zr0.56 Alloys”,Acta Materialia87 (2015) 187-200.

16. C.A. Niedermeier, Z.M. Wang*, E.J. Mittemeijer, “Al-induced Crystallization of Amorphous SixGe1-x (0≤x≤1): Diffusion, Phase Development and Layer Exchange”,Acta Materialia72 (2014) 211-222.

17. Z.M. Wang*, L. Gu, L.P.H. Jeurgens, F. Phillipp, E.J. Mittemeijer, “Real-Time Visualization of Convective Transportation of Solid Materials at Nanoscale”,Nano Letters12 (2012) 6126 -6132.

18. D. Flototto, Z.M. Wang*, L.P.H. Jeurgens, E.J. Mittemeijer, “Quantum Confinement Drives Macroscopic Stress Oscillations at the Initial Stage of Thin Film Growth”,Physical Review Letters109 (2012) 045501.

19. Z.M. Wang*, L. Gu, F. Phillipp, J.Y. Wang, L.P.H. Jeurgens, E.J. Mittemeijer, “Metal-Catalyzed Growth of Semiconductor Nanostructures Without Solubility and Diffusivity Constraints”,Advanced Materials23 (2011) 854–859.

20 Z.M. Wang*, J.Y. Wang, L.P.H. Jeurgens, E.J. Mittemeijer, “Origins of Stress Development During Metal-Induced Crystallization and Layer Exchange: Annealing Amorphous Ge/Crystalline Al Bilayers”,Acta Materialia56 (2008) 5047.

21. Z.M. Wang, J.Y. Wang, L.P.H. Jeurgens, E.J. Mittemeijer, “Thermodynamics and Mechanism of Metal-Induced Crystallization in Immiscible Alloy Systems: Experiments and Calculations on Al/a-Ge and Al/a-Si Bilayers”,Physical Review B77 (2008) 045424.

22. Z.M. Wang, J.Y. Wang, L.P.H. Jeurgens, E.J. Mittemeijer, “Tailoring the Ultrathin Al-Induced Crystallization Temperature of Amorphous Si by Application of Interface Thermodynamics”,Physical Review Letters100 (2008) 125503.