祁正兵 - 厦门理工学院 - 材料科学与工程学院

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祁正兵副教授收藏完善纠错
厦门理工学院材料科学与工程学院
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个人简介

祁正兵，博士、副教授、硕士生导师、材料科学与工程系主任。2006年获厦门大学化学化工学院材料科学与工程专业工学学士学位，2012年获厦门大学化学化工学院应用化学专业理学博士学位。中国机械工程学会高级会员、中国机械工程学会表面工程分会委员，入选福建省高校杰出青年人才计划，厦门理工学院党员名师先锋，厦门理工学院鹭江学者。主要从事材料表面涂层薄膜技术与新材料的开发及应用研究。主持国家自然科学基金、福建省自然科学基金、福建省教育厅省属高校项目、厦门市科技计划项目等十余项课题，作为主要研究人员参与了国家科技支撑计划项目等课题。在Nano Letters、Nano Research、Journal of Power Sources、Scripta Materialia等国内外学术期刊上发表SCI收录论文60余篇，第一作者/通讯作者论文30余篇，论文引用2000余次，有6篇学术论文被美国学术科技媒体VerticalNews专题报道；出版学术专著章节1部；获13项授权国家发明专利。近年来承担的主要科研项目： [1]. 国家自然科学基金青年项目：CrAlVN/CrAlYN纳米多层硬质涂层抗高温氧化、高温摩擦磨损行为及机制研究 (批准号：51601163)；2017.1~ 2019.12，研究经费：25万，主持。 [2]. 福建省自然科学基金面上项目：基于双过渡金属氮化物纳米结构薄膜超级电容器的构建及储能机理研究（批准号：2021J011211），2021.11-2024.11，研究经费：10万，主持。 [3]. 厦门市科技计划项目：基于过渡金属氮化物纳米结构薄膜的高容量长寿命超级电容器（批准号：3502Z20206070）；2020.7-2023.6，研究经费：15万，主持。 [4]. 福建省高校杰出青年科研人才项目：2017.10~ 2020.10，研究经费：7万，主持。 [5]. 福建省自然科学基金面上项目：CrAlVN/CrAlYN纳米多层硬质涂层结构调控及其抗高温氧化、摩擦磨损机制研究 (批准号：2017J01718)；2017.4~ 2020.3，研究经费：10万，主持。 [6]. 福建省教育厅省属高校项目：高速干式切削用CrAlYN硬质涂层高温抗氧化行为及机制研究 (批准号：JK2014034)；2014.5~2017.4，研究经费：6万，主持。近年来获授权专利情况： [1]. 倪永金，祁正兵，一种疏水硅溶胶前驱体组合物及其制备方法，2021.8.13，中国，ZL202011624320.6。 [2]. 葛晓宏，孙绍训，王金伙，刘跃军，祁正兵，王英，一种预浸布摩擦系数竖直测量装置及测量方法，2019.1.22，中国，ZL201910058927.3。 [3]. 王金伙，孙绍训，葛晓宏，刘跃军，祁正兵，郑艳，一种预浸布摩擦系数竖直测量装置及测量方法，2019.1.22，中国，ZL201910059513.2。 [4]. 王金伙，孙绍训，葛晓宏，刘跃军，祁正兵，张承聪，—种高分子材料摩擦系数水平测量装置及测量方法，2019.1.22，中国，ZL201910059774.4。 [5]. 王周成，吴正涛，祁正兵，张东方，一种在金刚石/铜复合基体表面制备Mo/AlN/BN涂层的方法，2014.5，中国，ZL201410059667.9。 [6]. 王周成，吴正涛，祁正兵，刘滨，一种非晶Al2O3包覆超细纳米晶ZrO2复合涂层材料的制备方法，2013.2，中国，ZL201210385373.6。 [7]. 王周成，刘滨，祁正兵，吴正涛，一种镁合金表面制备钇/氮化硅复合涂层材料的方法，2013.2，中国，ZL201210387689.9。 [8]. 王周成，祁正兵，黄若轩，孙鹏，朱芳萍，在硬质合金基体表面制备纳米结构氮钇锆硬质涂层的方法，2010.12，中国，ZL201010274793.8。 [9]. 王周成，孙鹏，祁正兵，一种硬质合金刀具表面氮铝钛涂层浸蚀剂及其使用方法，2010.7，中国，ZL201010116027.9。 [10]. 王周成，祁正兵，黄若轩，孙鹏，朱芳萍，一种高硬度氮化锆硬质涂层的制备方法，2010.7，中国，ZL201010111641.6。 [11]. 王周成，孙鹏，祁正兵，一种硬质合金刀具表面碳氮化钛涂层浸蚀剂及其使用方法，2009.12，中国，ZL200910112215.1。 [12]. 王周成，祁正兵，廖齐华，一种碳纳米管/纳米镍复合薄膜材料的制备方法，2008.9，中国，ZL200810070864.5。 [13]. 王周成，祁正兵，廖齐华，一种碳纳米管/纳米铂复合薄膜材料的制备方法，2008.9，中国，ZL200810070863.0。

研究领域

[1]. 材料表面涂层薄膜技术与新材料的开发及应用 [2]. 功能薄膜在电池、超级电容器等能源储存领域应用 [3]. 材料微观结构分析与表征

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1]. Qi Z, Zeng Y, Hou Z, Yang Y, Lin B, Wei B*, Wang Z, Liang H*. Heterointerface engineering of Ni-Ni3N hierarchical nanoarrays for efficient alkaline hydrogen evolution. Nano Research, 2023, 16(4):4803-4811. [2]. Wang R, Wu Q, Wu M, Zheng J, Cui J, Kang Q, Qi Z*, Ma J, Wang Z, Liang H*. Interface engineering of Zn meal anodes using electrochemically inert Al2O3 protective nanocoatings. Nano Research, 2022,15(8):7227-7233. [3]. Zheng J, Huang Z, Ming F, Zeng Y, Wei B, Jiang Q, Qi Z*, Wang Z, Liang H*. Surface and Interface Engineering of Zn Anodes in Aqueous Rechargeable Zn-Ion Batteries. Small, 2022,18(21):2200006. [4]. Zheng J, Huang Z, Zeng Y, Liu W, Wei B, Qi Z*, Wang Z, Xia C, Liang H*. Electrostatic Shielding Regulation of Magnetron Sputtered Al-Based Alloy Protective Coatings Enables Highly Reversible Zinc Anodes. Nano Letters, 2022,22(3):1017-1023. [5]. Zheng J, Cao Z, Ming F, Liang H, Qi Z, Liu W, Xia C, Chen C, Cavallo L, Wang Z*. Preferred orientation of TiN coatings enables stable zinc anodes. ACS Energy Letters, 2021,7(1):197-203. [6]. H.R. Zhang, W.S. Hu, B.B. Wei, J.X. Zheng, Z.B. Qi*, Z.C. Wang*. Freestanding Co3N thin film for high performance supercapacitors, Ceramics International, 47 (2021) 3267-3271. [7]. B.B. Wei, F.W. Ming, H.F. Liang*, Z.B. Qi*, W.S. Hu, Z.C. Wang*，All nitride asymmetric supercapacitors of niobium titanium nitride-vanadium nitride, Journal of Power Sources, 481 (2020), 228842 [8]. Z.B. Qi*, B.B. Wei, J.H. Wang, Y. Yang,Z.C. Wang, Nanostructured porous CrN thin films by oblique angle magnetron sputtering for symmetric supercapacitors, Journal of Alloys and Compounds,806 (2019) 953-959. [9]. Z.T. Wu, P. Tang, Y. Wu, Z.B. Qi*, Wear behavior of AlCrSiVN coatings at elevated temperature up to 700℃. Vacuum, 2019, 169: 108876-108883. [10]. B.B. Wei, J. Wu, G. Mei, Z.B. Qi*, W.S. Hu, Z.C. Wang*, NiCo2O4 nanowire arrays rich in oxygen deficiencies for hydrogen evolution reaction. International Journal of Hydrogen Energy, 2019, 44(13): 6612-6617. [11]. B.B. Wei, P.C. Yao, G.S. Tang, Z.B. Qi*, H. Shen, Z.C. Wang*, Mn-doped CoSe2 nanosheets as high-efficiency catalysts for the oxygen evolution reaction. Dalton Transactions, 48 (2019) 102378-10244. [12]. H. Shen, B.B. Wei, D.F. Zhang, Z.B. Qi*, Z.C. Wang*, Magnetron sputtered NbN thin film electrodes for supercapacitors. Materials Letters, 2018, 229 (2018) 17-20. [13]. D.F. Zhang, Z.B. Qi*, B.B. Wei, H. Shen, Z.C. Wang*, Microstructure and corrosion behaviors of conductive Hf/HfN multilayer coatings on magnesium alloys, Ceramics International, 44 (2018) 9958-9966. [14]. D.F. Zhang, Z.B. Qi*,H. Shen, B.B. Wei, Y.M. Yang, Z.C. Wang*,In vitro degradation and cytocompatibility of magnesium alloy coated with Hf/PLLA duplex coating, Materials Letters, 213 (2018) 249-253. [15]. Z.B. Qi*, Z.T. Wu, D.F. Zhang, B.B. Wei, J.H. Wang, Z.C. Wang*,Effect of sputtering power on the chemical composition, microstructure and mechanical properties of CrNx hard coatings deposited by reactive magnetron sputtering, Vacuum, 145 (2017) 136-143. [16]. D.F. Zhang, Z.B. Qi*, B.B. Wei, Z.T. Wu, Z.C. Wang*, Low temperature thermal oxidation towards hafnium-coated magnesium alloy for biomedical application, Materials Letters, 190 (2017) 181-184. [17]. D.F. Zhang, Z.B. Qi*, B.B. Wei, Z.T. Wu, Z.C. Wang*, Anticorrosive yet conductive Hf/Si3N4 multilayer coatings on AZ91D magnesium alloy by magnetron sputtering, Surface and Coatings Technology, 309 (2017) 12-20. [18]. Z.T. Wu, P. Sun, Z.B. Qi*, B.B. Wei, Z.C. Wang*, High temperature oxidation behavior and wear resistance of Ti0.53Al0.47N coating by cathodic arc evaporation, Vacuum, 135 (2017) 34-43. [19]. Z.B. Qi*, Z.T. Wu, D.F. Zhang, J. Zuo, Z.C. Wang*, Microstructure, mechanical properties and oxidation behaviors of magnetron sputtered NbNx coatings, Journal of Alloys and Compounds, 675 (2016) 22-30. [20]. D.F. Zhang, Z.B. Qi*, B.B. Wei, Z.C. Wang*, Microstructure and corrosion behavior of hafnium coatings on AZ91D magnesium alloys by magnetron sputtering, RSC advance, 103(2016) 100676-100682. [21]. Z.T. Wu, Z.B. Qi*, B.B. Wei, D.F. Zhang, Z.C. Wang*. Understanding hardness evolution of Zr–Si–N nanocomposite coatings via investigating their deformation behaviors, Journal of the European Ceramic Society, 36(2016) 3329-3339. [22]. D.F. Zhang, B.B. Wei, Z.T. Wu, Z.B. Qi*, Z.C. Wang*, A comparative study on the corrosion behaviour of Al, Ti, Zr and Hf metallic coatings deposited on AZ91D magnesium alloys, Surface and Coatings Technology, 303(2016)94-102. [23]. Z.T. Wu, Z.B. Qi*, D.F. Zhang, B.B. Wei, Z.C. Wang*, Evaluating the influence of adding Nb on microstructure, hardness and oxidation resistance of CrN coating, Surface and Coatings Technology, 289 (2016) 45-51 [24]. Z.T. Wu, Z.B. Qi*, D.F. Zhang, Z.C. Wang*, Nanoindentation induced plastic deformation in nanocrystalline ZrN coating, Materials Letters, 164 (2016) 120-123. [25]. Z.B. Qi, Z.T. Wu, H.F. Liang, D. Zhang, J.H. Wang, Z.C. Wang*, In situ and ex situ studies of microstructure evolution during high-temperature oxidation of ZrN hard coating, Scripta Materialia, 97 (2015) 9-12. [26]. Z.T. Wu, Z.B. Qi*, D.F. Zhang, Z.C. Wang*, Microstructure, mechanical properties and oxidation resistance of (Zr,Hf)Nx coatings by magnetron co-sputtering, Surface and Coatings Technology, 276 (2015) 219-227. [27]. Z.T. Wu, Z.B. Qi*, D.F. Zhang, Z.C. Wang*, Evolution of the microstructure and oxidation resistance in co-sputtered Zr-Y-N coatings, Applied Surface Science, 321 (2014) 268-274. [28]. Z.B. Qi, Z.T. Wu, Z.C. Wang*, Improved hardness and oxidation resistance for CrAlN hard coatings with Y addition by magnetron co-sputtering, Surface and Coatings Technology, 259 (2014) 146-151. [29]. Z.T. Wu, Z.B. Qi*, W.F. Jiang, Z.C. Wang*, B. Liu, Influence of niobium addition on microstructure, mechanical properties and oxidation resistance of ZrN coatings, Thin Solid Films, 570 (2014) 256-261. [30]. Z.B. Qi, F.P. Zhu, Z.T. Wu, B. Liu, Z.C. Wang*, D.L. Peng, C.H. Wu, Influence of yttrium addition on microstructure and mechanical properties of ZrN coatings, Surface and Coatings Technology, 231 (2013) 102-106 [31]. Z.B. Qi, P. Sun, F. Zhu, Z.T. Wu, B. Liu, Z.C. Wang*, D.L. Peng, C.H. Wu, Relationship between tribological properties and oxidation behavior of Ti0.34Al0.66N coatings at elevated temperature up to 900℃, Surface and Coatings Technology, 231 (2013) 267-272. [32]. Z.B. Qi, B. Liu, Z.T. Wu, F. Zhu, Z.C. Wang*, C. Wu, A comparative study of the oxidation behavior of Cr2N and CrN coatings, Thin Solid Films, 544 (2013) 515-520. [33]. Z.B. Qi, W.L. Yan, J.Q. Hong, F.P. Zhu, P. Sun, Z.C. Wang*, Z.T. Wu, D.L. Peng, C.H. Wu, Working Pressure Induced Microstructure and Stress Evolution of Sputtered ZrN Coatings, Rare Metal Materials and Engineering, 41(2012) 429-432. [34]. Z.B. Qi, P. Sun, F.P. Zhu, Z.C. Wang*, D.L. Peng, C.H. Wu, The inverse Hall–Petch effect in nanocrystalline ZrN coatings, Surface and Coatings Technology, 205 (2011) 3692-3697.

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