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周灵平

发布于:2017-09-19 星期二 17:44:17 点击数:16006

博士,教授,博士生导师,湖南省先进材料制备技术国防重点实验室主任,湖南省先进涂层工程技术研究中心副主任,湖南大学电子封装材料与薄膜技术研究所所长。国家科技专家库专家,国家军品配套规划专家。

欢迎材料、物理、化学等相关专业学生加入课题组!


[联系方式]办公电话:0731-88822663,E-mail: lpzhou@hnu.edu.cn


基本信息

领导湖南大学电子封装材料与薄膜技术研究所学术团队,主要成员包括符立才教授、朱家俊副教授、杨武霖副教授、李德意高工;在读或毕业博士研究生10余人、硕士研究生50余人。拥有实验室400平方米,实验仪器设备100余台套,主要包括离子束磁控溅射复合镀膜设备、磁控溅射镀膜工程化设备、电子束蒸发镀膜设备、HFCVDPECVD、热压炉、XRD、热导仪、电化学工作站、电池测试系统等。团队长期从事新型电子封装材料、难混溶合金与膜基体系、军用电池材料、功能复合材料、功能薄膜材料、材料表面改性等方面研究

教育背景

1981年9月-1985年7月在北京钢铁学院(现北京科技大学)金属材料专业学习,学士;

2004年9月—2012年5月在中南大学材料物理与化学专业学习,博士。

工作履历

1985年8月—1996年2月在湖南省冶金材料研究所任研究实习员、助理研究员;

1996年3月—2000年12月在湖南大学材料测试研究中心任助理研究员、高级工程师;

2001年1月—2005年5月在湖南大学材料科学与工程学院任副教授;

2005年5月至今在湖南大学材料科学与工程学院任教授;

2006年5月至今任湖南大学电子封装材料与薄膜技术研究所所长;

2010年9月—2020年3月任湖南大学材料学院副院长;

2014年至今任湖南省先进涂层工程技术研究中心副主任;

2014年至今任湖南省先进材料制备技术国防重点实验室主任。


学术兼职

湖南省分析测试协会常务理事,副秘书长

研究领域

1电子封装材料

主要研究开发金属化陶瓷基板、碳/金属复合材料、叠层复合材料、热沉材料、热界面材料、键合片、互连材料等。

2、能源与电子材料

主要研究锂离子电池正极材料、热电池正极材料,场发射电极材料等。

3、功能薄膜与涂层

主要研究具有声、光、电、热、耐磨减摩等功能的金属、合金、陶瓷、碳薄膜,如Cu、Ni、Al、Ag、Au等金属单质或多层膜,Cu-W等合金薄膜,AlN等压电薄膜,微晶Si等光电薄膜,MgF2SiO2TiO2等光学薄膜,金刚石、类金刚石等超硬膜,Cu-Ta、陶瓷等耐磨减摩涂层等。


研究概况

近年主持的科研项目:

1、空间太阳电池复合互联材料工程化,国家项目,667万,在研;

2、预置硅构建金刚石/铝复合材料耐潮高导热界面及其冶金形为,国家基金,60万(直接经费),在研;

3Ag薄膜/钼复合互联材料,国家项目,272万,完成已验收;

4冷阴极Ta-W合金材料研究,国家项目,235万,完成待验收;

5高性能金属化薄膜研究,国家项目,190万,完成已验收;

6复合热沉材料Cu-W薄膜/Cu研制,国家项目,100万,完成已验收;

7钼合金棒及表面镀金层研制,国家项目,81万,完成已验收;

8高导热、低膨胀封装材料,国家项目,80万,完成已验收;

9多层复合层间绝缘新型封装材,国家项目,80万,完成已验收;

10集成复合热沉,国家项目,80万,2003-2005,完成已验收;

11AlN陶瓷表面Ti/Pt/Au薄膜金属化,国家项目,40万,完成已验收;

12军民两用高性能金属化氮化铝陶瓷基片,省级项目,40万,在研

13离子束辅助涂层(IAC)技术制备类金刚石超硬耐蚀膜层研究,部级基金重点项目,40万,完成已验收;

14、团队其他成员主持科研项目10多项,合计经费500余万元。


学术成果

学术论文:

[54] Z. Luo, L. Fu*, J. Zhu, W. Yang, D. Li, L. Zhou*, Cu2O as a promising cathode with high specific capacity for thermal battery, Journal of Power Sources, 448 (2020).

[53] Q. Chen, W. Yang*, J. Zhu, L. Fu, D. Li, L. Zhou*, Enhanced visible light photocatalytic activity of g-C3N4 decorated ZrO2-x nanotubes heterostructure for degradation of tetracycline hydrochloride, J. Hazard. Mater., 384 (2020) 121275-121275.

[52] T. Xie, L. Fu*, B. Gao, J. Zhu, W. Yang, D. Li, L. Zhou*, The crystallization character of W-Cu thin films at the early stage of deposition, Thin Solid Films, 690 (2019).

[51] X. Wu, L. Fu*, W. Qin, T. Xie, J. Zhu, W. Yang, D. Li, L. Zhou, Interface amorphization improving the mechanical properties of Cu-Ta nanolaminates, Materials Research Express, 6 (2019).

[50] H. Tang, W. Yang*, L. Fu, J. Zhu, D. Li, L. Zhou*, Excellent adsorption capacity and photocatalytic regeneration of nanoparticles-assembled mesoporous Cu2O/Bi2O3 composites for removal of methyl orange, Materials Research Express, 6 (2019).

[49] P. Tan, L. Fu*, J. Teng, J. Zhu, W. Yang, D. Li, L. Zhou, Effect of texture on wear resistance of tantalum nitride film, Tribology International, 133 (2019) 126-135.

[48] J. Li, L. Fu*, J. Zhu, W. Yang, D. Li, L. Zhou*, Improved Electrochemical Performance of FeF3 by Inlaying in a Nitrogen-Doped Carbon Matrix, Chemelectrochem, 6 (2019) 5203-5210.

[47] C. Jin, L. Fu*, B. Ge, X. Pu, W. Li, L. Zhou*, The NiCl2/NiS2@C double active composite cathodes with surface synergistic effects for high-power thermal battery, Journal of Alloys and Compounds, 800 (2019) 518-524.

[46] J. Huang, W. Yang*, J. Zhu, L. Fu, D. Li, L. Zhou, Silver nanoparticles decorated 3D reduced graphene oxides as hybrid filler for enhancing thermal conductivity of polystyrene composites, Compos. Pt. A-Appl. Sci. Manuf., 123 (2019) 79-85.

[45] Y. Hu, J. Zhu*, C. Zhang, W. Yang, L. Fu, D. Li, L. Zhou, Understanding the Preferred Crystal Orientation of Sputtered Silver in Ar/N-2 Atmosphere: A Microstructure Investigation, Advances in Materials Science and Engineering, 2019 (2019).

[44] L. Fu*, L. Zhou, Effect of applied magnetic field on wear behaviour of martensitic steel, Journal of Materials Research and Technology-Jmr&T, 8 (2019) 2880-2886.

[43] Q. Chen, W. Yang*, J. Zhu, L. Fu, D. Li, L. Zhou*, In situ fluorine doped ZrO2-x nanotubes for efficient visible light photocatalytic activity, Journal of Materials Science-Materials in Electronics, 30 (2019) 701-710.

[42] J. Zhu*, Y. Hu, M. Xu, W. Yang, L. Fu, D. Li, L. Zhou*, Enhancement of the Adhesive Strength between Ag Films and Mo Substrate by Ag Implanted via Ion Beam-Assisted Deposition, Materials, 11 (2018).

[41] Y. Zhang, W. Yang*, L. Fu, J. Zhu, D. Li, L. Zhou, Improvement Mechanism of Field Emission Properties of Diamond Films by Metal Transition Layers, Rare Metal Materials and Engineering, 47 (2018) 3433-3438.

[40] M. Xu, J. Zhu*, W. Yang, D. Li, L. Zhou, L. Fu, Wear behavior of Ag implantation GH4169 alloy by ion beam assisted bombardment, Proceedings of the Institution of Mechanical Engineers Part J-Journal of Engineering Tribology, 232 (2018) 1561-1568.

[39] T. Xie, J. Zhu*, L. Fu, R. Zhang, N. Li, M. Yang, J. Wang, W. Qin, W. Yang, D. Li, L. Zhou*, The evolution of hardness in Cu-W alloy thin films, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 729 (2018) 170-177.

[38] W. Qin, L. Fu*, J. Zhu, W. Yang, J. Sang, D. Li, L. Zhou, Electrical and thermal properties of Cu-Ta films prepared by magnetron sputtering, Applied Surface Science, 443 (2018) 97-102.

[37] R. Peng, W.-l. Yang*, L.-c. Fu, J.-j. Zhu, D.-y. Li, L.-p. Zhou*, Preparation of anodic alumina films with low porosity and high insulation property, Chinese Journal of Nonferrous Metals, 28 (2018) 964-970.

[36] J. Li, L. Fu*, Z. Xu, J. Zhu, W. Yang, D. Li, L. Zhou*, Electrochemical properties of carbon-wrapped FeF3 nanocomposite as cathode material for lithium ion battery, Electrochimica Acta, 281 (2018) 88-98.

[35] S. Chen, W. Yang*, J. Zhu, L. Fu, D. Li, L. Zhou*, Preparation of highly-ordered lanthanum hexaboride nanotube arrays and optimizing its field emission property by ion bombardment post-treatment, Journal of Materials Science-Materials in Electronics, 29 (2018) 10008-10015.

[34] Jin C, Fu L*, Zhu J, Yang W, Li D, Zhou L*. A hierarchical carbon modified nano-NiS2 cathode with high thermal stability for a high energy thermal battery. Journal of Materials Chemistry A. 2018;6(16):7123-32.

[33] Li J, Fu L*, Xu Z, Zhu J, Yang W, Li D, Zhou L*. Electrochemical properties of carbon-wrapped FeF3 nanocomposite as cathode material for lithium ion battery. Electrochimica Acta. 2018;281:88-98.

[32] Fu L, Tan P, Zhu J, Yang W, Li D, Zhou L. Tribological properties of surface nanocrystalline martensite steel in vacuum. Tribology International. 2017;109:246-51.

[31] Zhu J, Hu Y, Xu M, Yang W, Fu L, Li D, Zhou L*. Enhancement of the Adhesive Strength between Ag Films and Mo Substrate by Ag Implanted via Ion Beam-Assisted Deposition. Materials. 2018;11(5).

[30] Xie T, Zhu J*, Fu L, Zhang R, Li N, Yang M, Zhou L*. The evolution of hardness in Cu-W alloy thin films. Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing. 2018;729:170-7.

[29] Xie T, Fu L*, Qin W, Zhu J, Yang W, Li D, Zhou L*. Self-assembled metal nano-multilayered film prepared by co-sputtering method. Applied Surface Science. 2018;435:16-22.

[28] Sang J, Yang W*, Zhu J, Fu L, Li D, Zhou L*. Regulating interface adhesion and enhancing thermal conductivity of diamond/copper composites by ion beam bombardment and following surface metallization pretreatment. J Alloy Compd. 2018;740:1060-6.

[27] Qin W, Fu L*, Zhu J, Yang W, Sang J, Li D, Zhou L. Electrical and thermal properties of Cu-Ta films prepared by magnetron sputtering. Applied Surface Science. 2018;443:97-102.

[26] Qin W, Fu L*, Zhu J, Yang W, Li D, Zhou L. Tribological properties of self-lubricating Ta-Cu films. Applied Surface Science. 2018;435:1105-13.

[25] Nie H, Fu L*, Zhu J, Yang W, Li D, Zhou L*. Excellent Tribological Properties of Lower Reduced Graphene Oxide Content Copper Composite by Using a One-Step Reduction Molecular-Level Mixing Process. Materials. 2018;11(4).

[24] Chen S, Yang W*, Zhu J, Fu L, Li D, Zhou L*. Preparation of highly-ordered lanthanum hexaboride nanotube arrays and optimizing its field emission property by ion bombardment post-treatment. Journal of Materials Science-Materials in Electronics. 2018;29(12):10008-15.

[23] Zhu J, Xu M, Yang W, Li D, Zhou L*, Fu L. Friction and Wear Behavior of an Ag-Mo Co-Implanted GH4169 Alloy via Ion-Beam-Assisted Bombardment. Coatings. 2017;7(11).

[22] Yang W, Sang J, Zhou L, Peng K, Zhu J, Li D. Overcoming selective interfacial bonding and enhancing thermal conductivity of diamond/aluminum composite by an ion bombardment pretreatment. Diamond and Related Materials. 2018;81:127-32.

[21] Qin W, Fu L, Xie T, Zhu J, Yang W, Li D, Zhou L. Abnormal hardness behavior of Cu-Ta films prepared by magnetron sputtering. J Alloy Compd. 2017;708:1033-7.


发明专利:

11.周灵平,陈庆伶,杨武霖,朱家俊,符立才,李德意. 一种窄禁带黑氧化锆纳米管薄膜及其制备方法. 2020.5 中国,ZL 2018 1 1274688.7

10.周灵平,谢添乐,符立才,杨武霖,朱家俊,李德意. 一种纳米多层膜及其制备方法. 2019.11 中国,ZL 2017 1 1104256.7

9.周灵平,金传玉,符立才,杨武霖,朱家俊,李德意. 一种纳米二硫化镍材料及其制备方法和应用. 2019.11中国,ZL 2017 1 0089589.0

8.周灵平,朱家俊,彭坤,李德意,杨武霖,李绍禄. 一种离子束磁控溅射复合镀膜的装置. 2016.8 中国,ZL 2013 1 0576275.5

7.彭坤,周灵平,朱家俊,李德意.  一种基于彩色喷墨打印制备渐变折射率增透膜的方法.2014.04 中国,ZL 2014 1 0009367.X

6.周灵平、朱家俊、彭坤、李德意、占玙娟、李绍禄. 层间绝缘叠层复合材料及其制备方法,2012.12,中国,ZL 201010022034.2

5.周灵平,梁凤敏,彭坤,朱家俊,李德意,李绍禄.  一种离子束磁控溅射两步法制备微晶硅薄膜的方法. 2012.07. 中国 ZL 2012 1 0094395.7

4.周灵平,李智,朱家俊,彭坤. 一种增强AlN薄膜择优取向生长的沉积方法. 2010.09 中国. 2010 1 0183319.4

3.周灵平, 徐兴龙, 张鹏, 曾雄, 周淼, 朱家俊, 李绍禄. 一种用于真空设备对粉体材料表面改性的样品台. 2009.05 ZL 200820159479.3 

2.周灵平,彭坤,李德意,李绍禄,门海泉. Cu-W薄膜涂层集成复合热沉. 2007.11 ZL 2006 1 0031439.6

1.周灵平等. 双离子束直接沉积类金刚石膜的工艺,国家发明专利,专利号:ZL 01 1 28592.3