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刘明

刘明
  • mingliu@scu.edu.cn
  • +86-28-85412854

 

教育与工作经历
2006--       四川大学分析测试中心,组建新TEM及supervisor
2001-2005  四川大学材料学院,副教授,硕士生导师
2000-2001   四川大学,博士后
1999-2000  英国伯明翰大学Research Fellow并取得资格认证
1996-1999  中国科学院金属所 博士学位
1993-1996  四川大学、中国科学院金属所 硕士学位
1989-1993  西安工业大学 学士学位

 
研究方向
1.       电子显微学在材料、生物学中的应用;
2.       纳米材料、电池材料、新型结构与功能材料、半导体材料、催化剂等的研制与微结构表征;
3.       材料的相变研究、原位动态观测与表征


代表论文  
1.        Huiyuan Xu, Wei Chu*, Jingjie Luo, Ming Liu*, New Au/FeOx/SiO2catalysts using deposition- precipitation for low-temperature carbon monoxide oxidation, Catalysis Communications, 11 (2010) 812-815

2.        Youliang Hong, HongsongFan, BoLi, BoGuo, MingLiu, XingdongZhang, Fabrication, biological effects,and medical applications of calcium phosphate nanoceramics, Materials Science and Engineering R xxx (2010) xxx–xxx

3.        Gang Deng, Yungui Chen, Mingda Tao, ChaolingWu, Xiangqian Shen, Heng Yang, Ming Liu Study of the electrochemical hydrogen storage properties of the proton-conductive perovskite-type oxide LaCrO3 as negative electrode for Ni/MH batteries, Electrochimica Acta 55 (2010) 884–886 ;

4.        Gang Deng, Yungui Chen, Mingda Tao, Chaoling Wu, Xiangqian Shen, Heng Yang, Ming Liu Electrochemical properties and hydrogen storage mechanism of perovskite-type oxide LaFeO3 as a negative electrode for Ni/MH batteries Electrochimica Acta, 55 (2010) 1120–1124;

5.        Gang Deng, Yungui Chen, Mingda Tao, Chaoling Wu, Xiangqian Shen, Heng Yang, Ming Liu, Preparation and electrochemical properties of La0.4Sr0.6FeO3 as negative electrode of Ni/MH batteries, International Journal of Hydrogen Energy 34(2009)5568-5573;

6.        C. J. Zhang, Y. F. Chen,  Z. G. Wang, B. L. Tian, C. Chen, X. W. Deng, M. Liu, Y. Zhang, X. Z. Liu, and Y. R. Li, Growth and structure of MBE-grown PbTiO3 epilayers by using RF atomic oxygen source, Journal of Christal Growth, 312 (2010) 382–385;

7.        H. Fu, M. S. Guo, H. J. Yu, X. T. Zu, and M. Liu, Amorphous composition in Gd–Co–Al system extracted from bulk metallicglass matrix composite, Journal of Applied Physics, 106, 083513 (2009);

8.        Shanghai Wei, Yungui Chen, Yongbai Tang, Xiaoping Zhang, Ming Liu, Shufen Xiao, Yuanhua Zhao,Compressive creep behavior of Mg–Sn–La alloys,Materials Science and Engineering A 508 (2009) 59–63;

9.        Wei SH (Wei Shang-hai)1, Chen YG (Chen Yun-gui), Tang YB (Tang Yong-bai), Liu M (Liu Ming), Xiao SF (Xiao Su-fen), Zhang XP (Zhang Xiao-ping), Zhao YH (Zhao Yuan-hua)  Compressive creep behavior of Mg-Sn binary alloy,Transactions of Nonferrous Metals Socienty of China 18(2008)s214-s217;

10.     Y.Jiang, M.Liu, Y.M.Yang, D.G.Guan, J.Zh.Chen,M.J.Tu, The Hydrogen Mechanism Study in  Preparing Nanonickel by Plasma Arc Spraying Method, 34(2005)475-478;

11.     M.Liu, X.Zhang, Y.Y.Li, J.Z.Chen and M.J.Tu, HREM Study of the Transformation Interface and Substructure in NiTiHf 40 Melt Spun Ribbons, Journal of Alloys and Compound, 334 (2002)147.

12.     Fernandez, G.M. Guileymany, B.Li, M.Liu, and X.W.Sha, “Nature of Two way shape Memory Effect in Shape Memory Alloys”, <<Recent Research Developments in Materials Science>>. 2(2001) 79-98, ISBN: 81-7736—45-0, Research Signpost, T.C.36,248(1), trivandrum-695008, India.

13.     G.L.Li, M.Liu and G.H.Wang, Microstructure studies of Potassium hexaTitanate Whiskers, Journal of Materials Research, vol.6, No.12 Dec 2001.

14.     M.liu, M.J.Tu, X.Zhang, Y.Y.Li and A.Shelyakov, Microstructure of Melt-Spinning High Temperature Memory Ni-Ti-Hf alloys, Journal of Material Science Letters, 20 (2001) 827.

15.     M.liu, X.Zhang, L.Liu Y.Y.Li and A.Shelyakov, In situ TEM observations of martensite-austenite fransformations in a Ni49Ti36Hf15 high temperature shape memory alloy, Journal of Material Science Letters, 19 (2000)383.

16.     X.Zhang, M.Liu, Fernandez and M. Guileymany, The Effect of Small γPrecipitates on the Two Way Shape Memory Effect in CuZnAl alloys, Materials & Design, 21 (2000) 557

17.     X.Zhang, Fernandez, M. Guileymany, M.Liu, and L.Liu Study ofγPrecipitates Induced by the Stabilized Stress-Induced Martensite (SSIM) Training Method in CuZnAl alloys Intermetallics,8 (2000)703-707.

18.     X.Zhang, M.Liu, Fernandez and M. Guileymany,The effect of SmallγPrecipitates on the Two-way Shape Memory Effect in a Cu-Zn-Al alloy, Materials Charaterization, 44(2000)365.

19.     M.Liu, X.M.Zhang, M.Z.Liu, X.M.Meng, Y.Y.Li, HREM Study the II Kind Twin Crystal Interface in Cu-Zn-Al Two Way Shape Memory Alloys  35(1999)273。

20.     M.Liu, X.M.Zhang, M.Z.Liu, and R.S.Liu. In Situ Metallographic Observation of Thermal Cycling Effects on Phase Transformation in Cu-Zn-Al Shape Memory Alloy. ACTA METALLURGICA SINICA (English Letter) 10 (1997)157.

21.     M.Liu, X.M.Zhang, MZ.Liu, and Y.Y.Li. Influence of Precipitates on the Two Way Shape Memory Effect. ACTA METALLURGICA SINICA (English Letter) 10 (1997)166.