王周成 厦门大学化学与化工学院化学工程与生物工程系教授、博士生导师
电话:0592-2180738
Email: zcwang@xmu.edu.cn
个人简历
厦门大学教授/博导 2006-
厦门大学副教授 2001-2006
韩国延世大学高级访问学者 2002
英国Brunel大学博士后 1998-2000
中科院福建物构所研习员 1988-1998
厦门大学博士 1985-1988
吉林大学学士 1980-1985
研究方向
1. 多元多层纳米复合结构涂层制备、微观结构、物理化学特性研究;
2. 高生物活性纳米复合梯度涂层材料的制备与表征;
3. 无机/有机纳米复合功能涂层材料的制备与表征;
4. 纳米复合和纳米结构粒子的合成、表征及应用;
5. 锂离子电池电极材料和电解液添加剂;
6. 镁合金防腐蚀表面处理新技术;
7. 钛及钛合金阳极氧化着色新工艺;
8. 医用金属材料表面处理新技术;
9. 钢筋/混凝土结构及化工设备腐蚀与防护;
10. 双极性有机涂层及其在金属腐蚀与防护中的应用等。
教学工作
1. 主讲本科生课程《材料表面工程》、硕士生课程《表面处理工艺》和《材料电化学工程》、博士生课程《应用电化学专题》。
2. 主讲本科生课程《材料表面工程》、硕士生课程《表面处理工艺》和《材料电化学工程》、博士生课程《应用电化学专题》。
承担的课题:
1. 纳米结构硬质涂层的制备、结构-硬度之间关系及其塑性变形机制研究,国家自然科学基金(51372212)(80万元,主持)
2. 医用金属表面微纳米结构功能化技术及产业化,福建省经贸委企业技术创新基金 (50万元,主持)
3. 表面涂层技术研究及其在切削刀具上的应用,国家科技支撑计划项目(2007BAE05B04)(922万元,主持)
4. 高生物活性纳米复合梯度涂层材料的电化学制备及表面过程机理研究,国家自然科学基金(20573086)(26万元,主持)
5. 新型ZrN系列纳米结构刀具涂层的产业化研究,福建省科技计划项目(2012H6019) (40万元,主持)
6. 高生物活性纳米复合涂层材料的研究与开发,厦门市科技计划项目(3502Z20063005)(15万元,主持)
7. ZrN纳米结构硬质涂层的应用研究,厦门市科技计划项目(3502Z20113003) (25万元,主持)
8. 医疗金属材料表面处理与功能化技术,企业合作项目 (105万元,主持)
近期主要代表论著:
1. Z.-C. WANG, L. YU, Z.-B. QI, G.-L SONG. Electroless nickel-boron plating to improve the corrosion resistance of Magnesium (Mg) Alloy, Corrosion Prevention of Magnesium Alloys, Edited by Guang-Ling Song, Woodhead Publishing Lit., Chapter 13, 370-392, 2013.
2. Hanfeng Liang, Binbin Xu, Zhoucheng Wang*, Self-assembled 3D flower-like a-Fe2O3 microstructures and their superior capability for heavy metal ion removal, Materials Chemistry and Physics, 2013, 141: 727-734.
3. Hanfeng Liang, Zhoucheng Wang*, Facile synthesis and photocatalytic activity of cocoon-like hollow hematite nanostructures, Materials Letters, 96 (2013): 12-15.
4. Yanzhen Xiao, Hanfeng Liang, Zhoucheng Wang*, MnFe2O4/chitosan nanocomposites as a recyclable adsorbent for the removal of hexavalent chromium, Materials Research Bulletin, 2013, 48: 3910-3915.
5. Yanzhen Xiao, Hanfeng Liang, Wei Chen, Zhoucheng Wang*, Synthesis and adsorption behavior of chitosan-coated MnFe2O4 nanoparticles for trace heavy metal ions removal, Applied Surface Science, 2013, 285P: 498-504.
6. Z.B. Qi, B. Liu, Z.T. Wu, F.P. Zhu, Z.C. Wang*, C.H. Wu. A comparative study of the oxidation behavior of Cr2N and CrN coatings, Thin Solid Films, 2013, 544: 515-520.
7. 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 & Coatings Technology, 2013, 231: 102-106.
8. Z.B. Qi, P. Sun, F.P. 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 & Coatings Technology, 2013, 231: 267-272.
9. Zhou-Cheng Wang *, Lu Yu, Fei Jia, Guang-Ling Song. Effect of Additives and Heat Treatment on the Formation and Performance of Electroless Nickel-Boron Plating on AZ91D Mg Alloy,Journal of the Electrochemical Society, 2012, 159 (7): C1-C7.
10. Z.C. Wang*, F. Jia, L. Yu, Z.B. Qi, Y. Tang, G.-L Song. Direct Electroless Nickel-Boron Plating on AZ91D Magnesium Alloy, Surface & Coatings Technology, 206 (2012): 3676-3685.
11. 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 & Coatings Technology, 205 (2011) 3692-3697.
12. Ruo-Xuan Huang, Zheng-Bing Qi, Peng Sun, Zhou-Cheng Wang*, Chong-Hu Wu. Influence of substrate roughness on structure and mechanical property of TiAlN coating fabricated by cathodic arc evaporation, Physics Procedia, 18 (2011) 160-167.
13. Jin-Cong Huang, Yong-Jin Ni, Zhou-Cheng Wang*. Preparation of hydroxyapatite functionally gradient coating on titanium substrate using a combination of electrophoretic deposition and reaction bonding process, Surface & Coatings Technology, 204 (2010): 3387-3392.
14. Han-Feng Liang, Zhou-Cheng Wang*. Adsorption of bovine serum albumin on functionalized silica-coated magnetic MnFe2O4 nanoparticles, Materials Chemistry and Physics, 124 (2010): 964-969.
15. Han-Feng Liang, Zhou-Cheng Wang*. Template-free synthesis and characterization of snowflake-like α-Fe2O3 microstructures, Materials Letters, 64 (2010): 2410-2412.
