| 姓名: | 吴贵智 | 性别: | 男 |
|---|---|---|---|
| 学科类别: | 材料科学与工程 | 职务: | |
| 学历: | 博士研究生 | 职称: | 副研究员 |
| 电话: | 传真: | ||
| 电子邮件: | gzwu@licp.cas.cn | ||
| 通讯地址: | 甘肃省兰州市城关区天水中路18号 | ||
简 历:
吴贵智,中国科学院兰州化学物理研究所特聘青年研究员/副研究员,博士生指导教师,获得中国科学院人才计划、甘肃省人才计划支持。
教育背景:
2001.09 –2005.07 西安交通大学 材料科学与工程学院 工学学士
2005.09 –2012.07 西安交通大学 表面科学与工程专业,硕博连读,获得工学博士学位,师从马胜利教授与徐可为教授
2009.09 –2010.10 巴黎第十一大学(Paris-sud 11),巴黎高等工业技术学院(ENSAM),获国家留学基金委联合培养博士项目资助于法国留学一年,师从巴黎第十一大学分子化学与材料学系系主任稽宁(Vincent JI)教授
2023.06 –2025.05 利兹大学(英国)高等教育教师资格认证培训班,获得英国先进高等教育(Advance HE)Associate Fellow资格认证
工作经历:
2012.06 –2013.03 中国科学院等离子体物理研究所 助研
2013.03 –2020.10 中国科学院兰州化学物理研究所 助研/项目副研
2020.11 –2025.05 利兹大学(英国)Research Fellow/Experimental officer
2025.05 –至今 中国科学院兰州化学物理研究所 特聘青年研究员
研究方向:
重点围绕高性能润滑耐磨涂层材料,以实验为主,结合模拟计算及摩擦学机制分析,开展相关材料的基础研发,及其在航空航天、高端制造、绿色能源等领域的应用。
1.高性能涂层新结构设计;
2.新能源电车齿轮减摩耐磨涂层材料;
3.航空航天苛刻工况减摩耐磨涂层材料研发;
4.精密机械、芯片制造领域功能涂层技术;
5.等离子体气相沉积技术;
6.界面力学;
7.涂层摩擦学、磨损机制。
获奖及荣誉:
2005年,西安交通大学优秀毕业生
2016年,第11届全国表面工程大会,优秀报告
2022年,Peter Jost Foundation Travel Fund Award
2024年,亨利-罗伊斯材料实验室年度科学亮点报道
承担科研项目:
作为项目负责人,承担包括国家级、省部级项目、科学院人才项目及企业横向项目共10余项。在英国期间,作为项目负责人或第二负责人,承担10余项项目,包括英国工程及物理科学委员会项目,Royce Institute项目,企业横向项目(如SKF Co.)等。部分项目如下:
2025-2030 中国科学院兰州化学物理研究所特聘青年研究院专项经费(负责人): 高端精密部件润滑耐磨涂层设计及制备
2014-2017 国家自然科学基金青年基金(负责人):基于氧扩散阻挡机制的耐高温自润滑TiAlSiN/a-C多层薄膜设计及其高温自润滑行为;
2018-2020 甘肃省自然科学基金(负责人):环保掺铬梯度非晶碳涂层制备及其抗冲蚀性能研究;
2013-2016 企业横向课题(负责人):陶瓷谐振子表面金属涂层制备(华为);
2021-2023 英国国家基金项目(工程及物理科学委员会):新型减摩耐磨涂层(英国);
2022-2023 Royce Access Scheme(负责人):光刻用超硬超薄涂层研究(剑桥大学);
2022-2023 Royce Insititute企业横向课题(负责人):空间绝缘超黑低反涂层;
2023-2024 利兹大学泵启动项目:工程用低摩擦涂层设计;
2022-2024 英国国家基金项目(工程及物理科学委员会):夏季实习生培养计划(2项)
代表论著:
1.Larissa Ihara, Guizhi Wu, Albano Cavaleiro Ardian Morina and Liuquan Yang. Environmental Impact of Physical Vapour Deposition and Plasma-Enhanced Chemical Vapour Deposition Technologies for Deposition of Diamond-like Carbon Coatings for Green Tribology. Coatings, 2025, 15(2):218.
2.S. Shrestha, A. Khurana, A.Smith, S.Radomski, A. Sarangi, L. Yang, GZ. Wu. Black Low Reflectance Inorganic coating for satellite (Blacksat). 16th International Symposium on Materials in the Space Environment. Saint-Raphael, France, 2024.10.
3.Yu Cao, Guizhi Wu*(共同一作), Yunfeng Wang*, Yongjun Li, Huijing Xu. Influence of interfacial tribochemical and mechanical effect on tribological behaviors of TiN film in different environments. Processes. 2024, 12(5), 923.
4.N. Sharifi, H. Smith, D. Madden, T. Kehoe, G. Wu, L. Yang, R. Welbourn, E. Fernandez, S. Clarke. Diamond-like carbon: A surface for extreme, high wear enviroments. Langmuir. 2024, 40: 52-61.
5.A. Bird, L. Yang, G. Wu, B.J. Inkson. Failure mechanisms of diamond like carbon coatings characterised by in situ SEM scratch testing. Wear. 2023, 530-531: 205034.
6.Guizhi Wu*, Jian Wu, Ardian Morina, Nan Xu, Liuquan Yang. Improving wear and corrosion resistance of a ta-C film by sealing surface with ALD TiO2 for biomedical applications. Tribology International Conference 2023. Lisbon, Portugal, 2023.04
7.Qingchun Chen, An Li, Guizhi Wu*, and Yuan Wang*. Tribochemistry of TiN films sliding against ceramic counterparts in vacuum condition and N2 atmosphere. Ceramics International. 2023, 8907-8915.
8.Guizhi Wu*, Yongjun Li, Rob Brittain, Zhibin Lu, Liuquan Yang*. Understanding of fracture conditions and material response in a model TiN film/stainless steel substrate system – A cross-sectional scratch test study. Surface & Coatings Technology. 2022, 128340. https://doi.org/10.1016/j.surfcoat.2022.128340
9.Guizhi Wu*, Jian Wu, Zhibin Lu, and Liuquan Yang*. Improving wear and corrosion resistance of a ta-C film by sealing surface with ALD TiO2 for biomedical applications. 7th World Tribology Congress. Lyon,France, 2022.07. Acting as Session Chair for ‘Session 7: Surface Engineering in Tribology’.
10.Yunfeng Wang, Yongjun Li, Guizhi Wu*, Zhibin Lu*. Friction reduction mehanisms of TiN film sliding in grapheme aqueous dispersion. Lubrication Science. 2022, 34(2): 112-126.
11.Guizhi Wu*, Zhibin Lu, and Liuquan Yang. Deposition and properties of bio-inspired AlSiCN/Ti hierarchical coating with high toughness. The Bragg Exchange 2022. Leeds, UK, 2022.01
12.Jian Wu, Lin Chen, Xubing Wei, Chuangming Ning, Guizhi Wu*, Zhiguo Wu, Zhibin Lu*, Guangan Zhang. Simultaneously improved bio-tribological and biological corrosion properties of taC film coated on Ti6Al4V by sealing with ALD. Diamond and Related Materials. 2021, 120: 108569.
13.Jian Wu, Lin Chen, Chuangming Ning, Guizhi Wu*, Zhibin Lu, Lunlin Shang, Zhiguo Wu, Guangan Zhang. Tribo-mechanism of amorphous carbon films under corrosion solution and various mechanical loads. Diamond and Related Materials. 2021, 114: 108318.
14.Yunfeng Wang, Yongjun Li, An Li, Qingchun Chen, Guizhi Wu*. Tribological performance of TiN/Ag coatings under vacuum conditions. Chinese Surface Technology. 2021, 06: 50.
15.Lin Chen, Chuangming Ning, Shunshun Qi, Guangan Zhang, Guizhi Wu, Zhibin Lu, Qunji Xue. Toward tribological performance of amorphous carbon film applied in methane atmosphere by thermal annealing. Applied Physics A. 2021, 127: 439.
16.Qingchun Chen, An Li, Guizhi Wu*, Zhibin Lu, Guangan Zhang, Guangke Tian*. Structure vs Chemistry: Tribological Behavior of TiN Films in the Nitrogen Atmosphere. Ceramics International. 2020, 46: 28053-28063.
17.Jian Wu, Guizhi Wu*, Xinli Kou, Zhibin Lu, Guangan Zhang, Zhiguo Wu. Probing tribological behaviors of Cr-DLC in corrosion solution by tailoring sliding interface. Tribology Letters. 2020, 68: 95.
18.An Li, Qingchun Chen, Guizhi Wu, Xin Huang, Yunfeng Wang, Zhibin Lu, Guangan Zhang, Xiangfan Nie. Effect of the variation of film thickness on the properties of multilayered Si-doped diamond-like carbon films deposited on SUS304, Al and Cu substrates. Journal of Materials Engineering and Performance. 2020, 29(12): 8473-8484.
19.An Li, Qingchun Chen, Guizhi Wu, Yunfeng Wang, Zhibin Lu, Guangan Zhang. Probing the lubrication mechanism of multilayered Si-DLC coatings in water and air environments. Diamond and Related Materials. 2020, 105: 107772.
20.Na Zhang, Liwei Lin, Bo Liu, Guizhi Wu, Wei Xu, Tao Peng. Tribological properties improvement of H-DLC films through reconstruction of microstructure and surface morphology by low-energy helium ion irradiation. Diamond and Related Materials. 2020, 109: 108080.
21.Qingchun Chen, Guizhi Wu*, Dongshan Li, et al. Understanding the unusual friction behavior of TiN films in vacuum. Tribology International. 2019, 137, 379–386.
22.Guizhi Wu*, Qingchun Chen, Zhibin Lu*, Guangan Zhang. Bio-inspired AlSiCN/Ti hierarchical coatings with high toughness by efficient energy dissipation. Results in Physics. 2019, 14 102358.
23.Jian Wu, Guizhi Wu*, Xinli Kou*, Zhibin Lu, Guangan Zhang. Tribological properties of amorphous carbon in hydrochloric acid with ta-C counterpart. Surface & Coatings Technology. 2019, 380, 125004.
24.Hufeng Xia, Guangke Tian, Qingchun Chen, Guizhi Wu*, Guangan Zhang. Friction and Wear properties of CrN coating in different working conditions. China Surface Engineering. 2019, 06:32.
25.Jingjing Wang, Xia Li, Guizhi Wu, Zhibin Lu, Guangan Zhang, Qunji Xue. Origin of low friction for amorphous carbon films with different hydrogen content in nitrogen atmosphere. Tribology International. 2019, 140, 105853.
26.Kun Liu, Lin Chen, Guangan Zhang, Guizhi Wu, Fei Ma, Zhibin Lu. Carbon content and layers number controlling electronic properties of hybridized graphene and boron nitride. Ceramics International. 45 (2019) 19380–19387.
27.Mingjiong Zhang, Guizhi Wu, Zhibin Lu, Lunlin Shang, Guangan Zhang. Corrosion and wear behaviors of Si-DLC films coated on inner surface of SS304 pipes by hollow cathode PECVD. Surface Topography, 2018, 6, 034010.
28.Kun Liu, Guangan Zhang, Jibin Pu, Fei Ma, Guizhi Wu, Zhibin Lu. Impermeability of boron nitride defect-sensitive monolayer with atomicoxygen-healing ability. Ceramics International. 44 (2018) 13888–13893.
29.Hao Li, Xia Li, Guangan Zhang, Liping Wang, Guizhi Wu. Exploring the Tribophysics and Tribochemistry of MoS2 by Sliding MoS2/Ti Composite Coating Under Different Humidity. Tribol. Lett., 2017, 65: 38.
30.Jinzhu Tang, Qi Ding, Songwei Zhang, Guizhi Wu, Litian Hu. Improved tribological performance of amorphous carbon (a-C) coating by ZrO2 nanoparticles. Materials, 2016, 9: 795.
31.Guizhi Wu, Xiaoyu Zhao, Zhibin Lu, Guangan Zhang, Xin Shi. Preparation and performance of bio-inspired AlSiCN/a-Ti coatings with robustness and toughness. 7th International Conference of Surface Engineering and 11th National Conference of Surface Engineering, 2016, 10.
32.Xin Shi, Jianfeng Dai, Guizhi Wu, Guangan Zhang, Jianmin Chen. Tribology and electrochemical performances of arc ion plating Ti/TiN multilayer films. China Surface Engineering, 2016, 29(3):20-25.
33.Xiaoyu Zhao, Zhibin Lu, Guizhi Wu, Guangan Zhang, Liping Wang, Qunji Xue. Preparation and properties of DLC/MoS2 multilayer coatings for high humidity tribology. Matrials Research Express, 2016, 3:066401.
34.Guizhi Wu, Guangan Zhang, Xin Shi, Liping Wang. Design of multilayer heterogeneous TiAlSiN/a-C coatings to modify high temperature properties of a-C. 7th National Youth Conference of Surface Engineering, 2015, 05.
35.Guizhi Wu, Guangan Zhang, Jibin Pu, Mingling Xie, Liping Wang. Preparation and properties of lubricant and high temperature fretting resistant CuNiIn/MoS2 multilayer coatings deposited on aircraft engine blade joint. 10th National Conference of Surface Engineering, 2014, 10.
36.Guangan Zhang, Zhibin Lu, Jibin Pu, Guizhi Wu, Kaiyun Wang. Structure and thermal stability of copper nitride thin films. Indian Journal of Materials Science, 2013, 2013: 725975.
37.Guizhi Wu, Shengli Ma, Kewei Xu, Paul Zhu. Tribological behavior of Ti-Al-Si-C-N hard coatings deposited by hybrid arc-enhanced magnetron sputtering. Journal of Vaccum Science and Technology A, 2012, 30(2):0215011-0215019.
38.Guizhi Wu, Shengli Ma, Kewei Xu, Vincent Ji, Paul Zhu. Oxidation resistance of quituple Ti-Al-Si-C-N coatings and associated mechanism. Journal of Vaccum Science and Technology A, 2012, 30(4):0415081-0415089.
39.Guizhi Wu, Sitao Liu, Shengli Ma, Kewei Xu, Vincent Ji, Paul Zhu. Ti-Al-Si-C-N Hard coatings synthesized by hybrid arc-enhanced magnetron Sputtering. Journal of American Socity for Testing and Materials International, 2011, 8(2):1-9.
40.Guizhi Wu, Sitao Liu, Shengli Ma, Kewei Xu. The influence of C and Al on the microstructure and mechanical properties of Ti-Al-Si-C-N coatings. The Fifth Chinese Youth International Symposium on Materials Science and Technology both domestic and foreign. Xian, China, 2011,10
41.Guizhi Wu, Sitao Liu, Shengli Ma, Kewei Xu, Vincent Ji, Paul Zhu. Microstructure and Mechanical Properties of Ti-Al-Si-C-N Hard Coatings Synthesized by Hybrid Arc Enhanced Magnetron Sputtering System. Internantional Federation for Heat Treatment and Surface Engineering. Rio, Brasil, 2010.07.
42.Guizhi Wu, Shengli Ma. Microstructure and mechanical properties of Ti-Si-C-N coatings deposited by hybrid arc-enhanced magnetron sputtering. Surface Engineering, 2010, 26(1-2):50-54.
43.Guizhi Wu, Shengli Ma. Production and XPS analysis of Ti-Si-C-N hard coatings by arc enhanced magnetron sputtering. 2010 Vacuum Technology Exchange Conference between Beijing and Shanxi, Xi’an,China, 2010.10.
44.Shengli Ma, Bin Xu, Guizhi Wu, Yanfeng Wang, Fei Ma, Dayan Ma, Kewei Xu, Tom Bell. Microstructure and mechanical properties of SiCN hard films deposited by an arc enhanced magnetic sputtering hybrid system. Surface & Coatings Technology. 2008, 202: 5379-5382.
45.Shengli Ma, Yan Guo, Bin Xu, Guizhi Wu, Kewei Xu. Synthesis and characterization of super hard, self-lubricating Ti-Si-C-N nanocomposite coatings. Acta Materialia, 2007, 55(18) 6350-6355.
46.Yan Guo, Bin Xu, Guizhi Wu, Shengli Ma, Kewei Xu. Oxidation behaviors of superhard nanocomposite Ti-Si-C-N coatings deposited by PCVD technology. Acta Metallurgica Sinica, 2007, 43:159-164.
47.Yan Guo, Gengrong Chang, Guizhi Wu, Shengli Ma, Kewei Xu. Thermal stability of a novel superhard nanocomposite Ti-Si-C-N coatings. Acta Metallurgica Sinica, 2006, 42:172-176.
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