材料科学与工程学院
通讯地址:材料楼 427
个人邮箱:zhouxiaowei901@163.com
邮政编码:212003
办公地点:材料楼 427
传真:
周小卫 男 工学博士、副教授/研究生导师,1983年生 籍贯:江苏 金坛。
2014年博士毕业于南京航空航天大学(材料加工工程,师从沈以赴 教授),获校优秀博士学位论文。2010年本硕扬州大学(保研,材料成型专业)。研究方向: 光催化,多孔织构,超疏水涂层,高温抗氧化等。
2014年12月入职江苏科技大学,金属材料系,2019-2020江苏科技大学“优秀学业导师”。其中:2018-2019年江苏省科技镇长团(建湖挂职);2020-2021省委驻泗阳帮扶工作队,为表彰脱贫攻坚,获个人嘉奖1次,校党员标兵。
科研方面:主持国家自然科学青年基金(51605203,已结题),江苏省自然科学青年基金(BK20150467,已结题),江苏省博士后基金(2018K093B),校深蓝人才工程(二层次,2018),江苏省研究生实践创新计划(SJCX24_2500)。在 J.Mater.Sci., Tribol. Int., Appl.Surf.Sci., J.Alloy Compd., Surf.Coat.Technol., J.Rare Earth., J.Mater.Eng. Perform.,金属学报.,稀有金属材料与工程等权威期刊发表SCI学术论文20余篇,其中1、2区Top论文10篇,IF>5.0以上论文10余篇,封面论文1篇,单篇最高被引60余次。申请国家发明专利6项,已授权4项(转让1项)。
耦合超声振荡–双脉冲电流调控作用对镍基稀土复相梯度电沉积层的生长规律及其耐蚀机制研究 经费20万 2015年7月- 2018年6月 第一负责人
多孔钛基表面电沉积稀土复相Ti-Ni合金梯度镀层的基础研究 经费21万 2017年1月- 2019年12月 第一负责人
[26]X.W. Zhou, Y.Guo, Z. Lu, J.C. Gao, 3D TiO2 foam-supported Ni–B-La films for superior anti-corrosive and tribo-mechanical performances,Tribology International, 203(2025)110409.[SCI1区,Top刊]
[25]周小卫, 郭云, 荆雪艳, 王宇鑫. 仿生苍耳球冠织构的Ni-Co-Zn超疏水合金涂层及其抗覆冰性能[J]. 金属学报,2025,61(5):783-796.
[24]周小卫, 荆雪艳, 傅瑞雪, 王宇鑫. Ni-Co-Zn三元合金的共沉积行为及耐蚀机制[J]. 金属学报,2024,60(11):1499-1511.
[23]X.W. Zhou, Y.Guo, Z. Lu, Magnetic and structural characteristics of self-assembly Co-Ni-Zn ternary nanocrystals,Journal of Alloys and Compounds,969 (2023)172438. [SCI2区,Top刊]
[22]X.W. Zhou, Y.Guo, Z. Lu, 3D Xanthium-like of Ni-Co-Zn ternary alloys as superhydrophobic coatings toward porous Ti surface for its anti-icing performances,Surface and Coatings Technology,473 (2023)130034. [SCI1区,Top刊]
[21] X.W. Zhou, Z. Lu, X.Y. Jing. Pinning growth of TiN films toward porous Ti matrix, Journal of Materials science, 2022, 57(40), 8949–18968.
[20] X.W. Zhou, R.X. Fu, D. Fu, Y.X. Wang, Ultrasound frequency-dependent microstructures of electrodeposited Ni nanocrystals for modifying mechanical properties,Journal of Materials science, 2020, 55(30),14980–15004.
[19] X.W. Zhou, Y.X. Wang, LaCl3-modified Ni deposits on 3D-heterotypic porous Ti surface for strengthening its mechanical and electrochemical properties,Surface & Coatings Technology, 2019,375(30): 652-669. [SCI1区,Top刊]
[18] X.W. Zhou, C. Ouyang, Wear and Corrosive Behaviors of Electroless Ni-LaCl3Composites on Nanoporous ATO Surface of Ti Substrate, Journal of Materials Engineering and Performance, 2019, 28(5): 2499-2512.
[17] X.W. Zhou, F. Wu, C. Ouyang, Electroless Ni-P Alloys on nanoporous ATO surface of Ti Substrate, Journal of Materials science,2018, 53:2812-2829.
[16] X.W. Zhou, C. Ouyang, Anodized porous titanium coated with Ni-CeO2 deposits for enhancing surface toughness and wear resistance, Applied Surface Science, 2017, 405: 476-488.[SCI 1区,Top刊]
[15] X.W. Zhou, C. Ouyang, Self-healing effects by the Ce-rich precipitations on completing defective boundaries to manage microstructures and oxidation resistance of Ni-CeO2 coatings, Surface & Coatings Technology, 2017,315: 67-79. [SCI1区,Top刊]
[14] X.W. Zhou, Y.F. Shen, A novel method designed for electrodeposition of nanocrystalline Ni coating and its corrosion behaviors in Hank's solution, Applied Surface Science, 2015, 324: 677-690.[SCI 1区,Top刊]
[13] X.W. Zhou, Y.F., Shen, A experimental study of oxidation behavior, thermodynamic stability and micro-structural evolution of nanocrystalline Ni-CeO2 coatings, Journal of Materials science, 2014, 49(10): 3755- 3774.
[12] X.W. Zhou, Y.F. Shen, Surface morphologies, tribological properties, and formation mechanism of the Ni-CeO2 nanocrystalline coatings on the modified surface ofTA2 substrate, Surface & Coatings Technology, 2014, 249(25): 6-18. [SCI1区,Top刊]
[11] X.W. Zhou, Y.F. Shen, Beneficial effects of CeO2 addition on microstructure and corrosion behavior of electrodeposited Ni nanocrystalline coatings, Surface & Coatings Technology, 2013, 235(25): 433-446. [SCI1区,Top刊]
[10] X.W. Zhou, Y.F. Shen, Huiming Jin, Synthesis, characterization and depositional mechanism of Ni-P binary coatings with nano-ceria particles addition by pulse electrodeposition, Transactions of Nonferroud Metals Society of China, 2012, 22: 1981-1988.
[9] X.W. Zhou, Y.F. Shen, Mechanism and microstructure of nickel-ceria composite coatings prepared by pulse current deposition under the ultrasonic field. Journal of Rare Earths, 2011, 29(9): 883-887.
[8] X.W. Zhou, Huiming Jin, Linnan Zhang. Influence of pH value on microstructure and thermal stability of Ni-P electroless coating prepared in acidic condition, Chinese Chemical Letters, 2009,3(20):845-848. [SCI1区,Top刊]
[7]周小卫, 刘珍光, 王宇鑫, 沈以赴. 超声振荡频率对电沉积纳米晶Ni微织构生长和抗磨性的关联性研究[J]. 稀有金属材料与工程, 2019,48(12): 3978-3989.
[6] X.W. Zhou, Y.F. Shen, Effect of deposition mechanism and microstructure of nano-Ceria oxide addition on Ni-P coating by pulse electrodeposition, Advanced Materials Research, 2011, 326: 151-156. [国际会议EI]
[5] 周小卫,沈以赴. 活性Ti表面电沉积Ni-CeO2复合镀层及其强韧性机理分析, 金属学报, 2017, 53 (2): 140-152.
[4]周小卫,沈以赴,顾冬冬. 双脉冲电沉积纳米晶Ni-CeO2复合镀层的微观结构及其高温抗氧化性能, 金属学报, 2012, 48 (8): 957- 964. [SCI 封面文章,中文权威期刊]
[3] 周小卫,沈以赴. Ni-CeO2纳米镀层在酸性NaCl溶液中的腐蚀行为及电化学阻抗谱特征, 金属学报, 2013, 49 (9): 1121- 1130.
[2] 周小卫,沈以赴. 超声波-双脉冲电沉积法制备Ni-CeO2纳米复合镀层, 材料热处理学报, 2012, 33 (02): 127-131. [EI]
[1] 周小卫,沈以赴,靳惠明. Ni-P/n- CeO2复合镀层的制备及耐蚀性能研究, 功能材料, 2011, 42 (02): 305-309. [EI]
耦合超声振荡–双脉冲电流调控作用对镍基稀土复相梯度电沉积层的生长规律及其耐蚀机制研究 经费20万 2015年7月- 2018年6月 第一负责人
多孔钛基表面电沉积稀土复相Ti-Ni合金梯度镀层的基础研究 经费21万 2017年1月- 2019年12月 第一负责人
[26]X.W. Zhou, Y.Guo, Z. Lu, J.C. Gao, 3D TiO2 foam-supported Ni–B-La films for superior anti-corrosive and tribo-mechanical performances,Tribology International, 203(2025)110409.[SCI1区,Top刊]
[25]周小卫, 郭云, 荆雪艳, 王宇鑫. 仿生苍耳球冠织构的Ni-Co-Zn超疏水合金涂层及其抗覆冰性能[J]. 金属学报,2025,61(5):783-796.
[24]周小卫, 荆雪艳, 傅瑞雪, 王宇鑫. Ni-Co-Zn三元合金的共沉积行为及耐蚀机制[J]. 金属学报,2024,60(11):1499-1511.
[23]X.W. Zhou, Y.Guo, Z. Lu, Magnetic and structural characteristics of self-assembly Co-Ni-Zn ternary nanocrystals,Journal of Alloys and Compounds,969 (2023)172438. [SCI2区,Top刊]
[22]X.W. Zhou, Y.Guo, Z. Lu, 3D Xanthium-like of Ni-Co-Zn ternary alloys as superhydrophobic coatings toward porous Ti surface for its anti-icing performances,Surface and Coatings Technology,473 (2023)130034. [SCI1区,Top刊]
[21] X.W. Zhou, Z. Lu, X.Y. Jing. Pinning growth of TiN films toward porous Ti matrix, Journal of Materials science, 2022, 57(40), 8949–18968.
[20] X.W. Zhou, R.X. Fu, D. Fu, Y.X. Wang, Ultrasound frequency-dependent microstructures of electrodeposited Ni nanocrystals for modifying mechanical properties,Journal of Materials science, 2020, 55(30),14980–15004.
[19] X.W. Zhou, Y.X. Wang, LaCl3-modified Ni deposits on 3D-heterotypic porous Ti surface for strengthening its mechanical and electrochemical properties,Surface & Coatings Technology, 2019,375(30): 652-669. [SCI1区,Top刊]
[18] X.W. Zhou, C. Ouyang, Wear and Corrosive Behaviors of Electroless Ni-LaCl3Composites on Nanoporous ATO Surface of Ti Substrate, Journal of Materials Engineering and Performance, 2019, 28(5): 2499-2512.
[17] X.W. Zhou, F. Wu, C. Ouyang, Electroless Ni-P Alloys on nanoporous ATO surface of Ti Substrate, Journal of Materials science,2018, 53:2812-2829.
[16] X.W. Zhou, C. Ouyang, Anodized porous titanium coated with Ni-CeO2 deposits for enhancing surface toughness and wear resistance, Applied Surface Science, 2017, 405: 476-488.[SCI 1区,Top刊]
[15] X.W. Zhou, C. Ouyang, Self-healing effects by the Ce-rich precipitations on completing defective boundaries to manage microstructures and oxidation resistance of Ni-CeO2 coatings, Surface & Coatings Technology, 2017,315: 67-79. [SCI1区,Top刊]
[14] X.W. Zhou, Y.F. Shen, A novel method designed for electrodeposition of nanocrystalline Ni coating and its corrosion behaviors in Hank's solution, Applied Surface Science, 2015, 324: 677-690.[SCI 1区,Top刊]
[13] X.W. Zhou, Y.F., Shen, A experimental study of oxidation behavior, thermodynamic stability and micro-structural evolution of nanocrystalline Ni-CeO2 coatings, Journal of Materials science, 2014, 49(10): 3755- 3774.
[12] X.W. Zhou, Y.F. Shen, Surface morphologies, tribological properties, and formation mechanism of the Ni-CeO2 nanocrystalline coatings on the modified surface ofTA2 substrate, Surface & Coatings Technology, 2014, 249(25): 6-18. [SCI1区,Top刊]
[11] X.W. Zhou, Y.F. Shen, Beneficial effects of CeO2 addition on microstructure and corrosion behavior of electrodeposited Ni nanocrystalline coatings, Surface & Coatings Technology, 2013, 235(25): 433-446. [SCI1区,Top刊]
[10] X.W. Zhou, Y.F. Shen, Huiming Jin, Synthesis, characterization and depositional mechanism of Ni-P binary coatings with nano-ceria particles addition by pulse electrodeposition, Transactions of Nonferroud Metals Society of China, 2012, 22: 1981-1988.
[9] X.W. Zhou, Y.F. Shen, Mechanism and microstructure of nickel-ceria composite coatings prepared by pulse current deposition under the ultrasonic field. Journal of Rare Earths, 2011, 29(9): 883-887.
[8] X.W. Zhou, Huiming Jin, Linnan Zhang. Influence of pH value on microstructure and thermal stability of Ni-P electroless coating prepared in acidic condition, Chinese Chemical Letters, 2009,3(20):845-848. [SCI1区,Top刊]
[7]周小卫, 刘珍光, 王宇鑫, 沈以赴. 超声振荡频率对电沉积纳米晶Ni微织构生长和抗磨性的关联性研究[J]. 稀有金属材料与工程, 2019,48(12): 3978-3989.
[6] X.W. Zhou, Y.F. Shen, Effect of deposition mechanism and microstructure of nano-Ceria oxide addition on Ni-P coating by pulse electrodeposition, Advanced Materials Research, 2011, 326: 151-156. [国际会议EI]
[5] 周小卫,沈以赴. 活性Ti表面电沉积Ni-CeO2复合镀层及其强韧性机理分析, 金属学报, 2017, 53 (2): 140-152.
[4]周小卫,沈以赴,顾冬冬. 双脉冲电沉积纳米晶Ni-CeO2复合镀层的微观结构及其高温抗氧化性能, 金属学报, 2012, 48 (8): 957- 964. [SCI 封面文章,中文权威期刊]
[3] 周小卫,沈以赴. Ni-CeO2纳米镀层在酸性NaCl溶液中的腐蚀行为及电化学阻抗谱特征, 金属学报, 2013, 49 (9): 1121- 1130.
[2] 周小卫,沈以赴. 超声波-双脉冲电沉积法制备Ni-CeO2纳米复合镀层, 材料热处理学报, 2012, 33 (02): 127-131. [EI]
[1] 周小卫,沈以赴,靳惠明. Ni-P/n- CeO2复合镀层的制备及耐蚀性能研究, 功能材料, 2011, 42 (02): 305-309. [EI]
耦合超声振荡–双脉冲电流调控作用对镍基稀土复相梯度电沉积层的生长规律及其耐蚀机制研究 经费20万 2015年7月- 2018年6月 第一负责人
多孔钛基表面电沉积稀土复相Ti-Ni合金梯度镀层的基础研究 经费21万 2017年1月- 2019年12月 第一负责人
[26]X.W. Zhou, Y.Guo, Z. Lu, J.C. Gao, 3D TiO2 foam-supported Ni–B-La films for superior anti-corrosive and tribo-mechanical performances,Tribology International, 203(2025)110409.[SCI1区,Top刊]
[25]周小卫, 郭云, 荆雪艳, 王宇鑫. 仿生苍耳球冠织构的Ni-Co-Zn超疏水合金涂层及其抗覆冰性能[J]. 金属学报,2025,61(5):783-796.
[24]周小卫, 荆雪艳, 傅瑞雪, 王宇鑫. Ni-Co-Zn三元合金的共沉积行为及耐蚀机制[J]. 金属学报,2024,60(11):1499-1511.
[23]X.W. Zhou, Y.Guo, Z. Lu, Magnetic and structural characteristics of self-assembly Co-Ni-Zn ternary nanocrystals,Journal of Alloys and Compounds,969 (2023)172438. [SCI2区,Top刊]
[22]X.W. Zhou, Y.Guo, Z. Lu, 3D Xanthium-like of Ni-Co-Zn ternary alloys as superhydrophobic coatings toward porous Ti surface for its anti-icing performances,Surface and Coatings Technology,473 (2023)130034. [SCI1区,Top刊]
[21] X.W. Zhou, Z. Lu, X.Y. Jing. Pinning growth of TiN films toward porous Ti matrix, Journal of Materials science, 2022, 57(40), 8949–18968.
[20] X.W. Zhou, R.X. Fu, D. Fu, Y.X. Wang, Ultrasound frequency-dependent microstructures of electrodeposited Ni nanocrystals for modifying mechanical properties,Journal of Materials science, 2020, 55(30),14980–15004.
[19] X.W. Zhou, Y.X. Wang, LaCl3-modified Ni deposits on 3D-heterotypic porous Ti surface for strengthening its mechanical and electrochemical properties,Surface & Coatings Technology, 2019,375(30): 652-669. [SCI1区,Top刊]
[18] X.W. Zhou, C. Ouyang, Wear and Corrosive Behaviors of Electroless Ni-LaCl3Composites on Nanoporous ATO Surface of Ti Substrate, Journal of Materials Engineering and Performance, 2019, 28(5): 2499-2512.
[17] X.W. Zhou, F. Wu, C. Ouyang, Electroless Ni-P Alloys on nanoporous ATO surface of Ti Substrate, Journal of Materials science,2018, 53:2812-2829.
[16] X.W. Zhou, C. Ouyang, Anodized porous titanium coated with Ni-CeO2 deposits for enhancing surface toughness and wear resistance, Applied Surface Science, 2017, 405: 476-488.[SCI 1区,Top刊]
[15] X.W. Zhou, C. Ouyang, Self-healing effects by the Ce-rich precipitations on completing defective boundaries to manage microstructures and oxidation resistance of Ni-CeO2 coatings, Surface & Coatings Technology, 2017,315: 67-79. [SCI1区,Top刊]
[14] X.W. Zhou, Y.F. Shen, A novel method designed for electrodeposition of nanocrystalline Ni coating and its corrosion behaviors in Hank's solution, Applied Surface Science, 2015, 324: 677-690.[SCI 1区,Top刊]
[13] X.W. Zhou, Y.F., Shen, A experimental study of oxidation behavior, thermodynamic stability and micro-structural evolution of nanocrystalline Ni-CeO2 coatings, Journal of Materials science, 2014, 49(10): 3755- 3774.
[12] X.W. Zhou, Y.F. Shen, Surface morphologies, tribological properties, and formation mechanism of the Ni-CeO2 nanocrystalline coatings on the modified surface ofTA2 substrate, Surface & Coatings Technology, 2014, 249(25): 6-18. [SCI1区,Top刊]
[11] X.W. Zhou, Y.F. Shen, Beneficial effects of CeO2 addition on microstructure and corrosion behavior of electrodeposited Ni nanocrystalline coatings, Surface & Coatings Technology, 2013, 235(25): 433-446. [SCI1区,Top刊]
[10] X.W. Zhou, Y.F. Shen, Huiming Jin, Synthesis, characterization and depositional mechanism of Ni-P binary coatings with nano-ceria particles addition by pulse electrodeposition, Transactions of Nonferroud Metals Society of China, 2012, 22: 1981-1988.
[9] X.W. Zhou, Y.F. Shen, Mechanism and microstructure of nickel-ceria composite coatings prepared by pulse current deposition under the ultrasonic field. Journal of Rare Earths, 2011, 29(9): 883-887.
[8] X.W. Zhou, Huiming Jin, Linnan Zhang. Influence of pH value on microstructure and thermal stability of Ni-P electroless coating prepared in acidic condition, Chinese Chemical Letters, 2009,3(20):845-848. [SCI1区,Top刊]
[7]周小卫, 刘珍光, 王宇鑫, 沈以赴. 超声振荡频率对电沉积纳米晶Ni微织构生长和抗磨性的关联性研究[J]. 稀有金属材料与工程, 2019,48(12): 3978-3989.
[6] X.W. Zhou, Y.F. Shen, Effect of deposition mechanism and microstructure of nano-Ceria oxide addition on Ni-P coating by pulse electrodeposition, Advanced Materials Research, 2011, 326: 151-156. [国际会议EI]
[5] 周小卫,沈以赴. 活性Ti表面电沉积Ni-CeO2复合镀层及其强韧性机理分析, 金属学报, 2017, 53 (2): 140-152.
[4]周小卫,沈以赴,顾冬冬. 双脉冲电沉积纳米晶Ni-CeO2复合镀层的微观结构及其高温抗氧化性能, 金属学报, 2012, 48 (8): 957- 964. [SCI 封面文章,中文权威期刊]
[3] 周小卫,沈以赴. Ni-CeO2纳米镀层在酸性NaCl溶液中的腐蚀行为及电化学阻抗谱特征, 金属学报, 2013, 49 (9): 1121- 1130.
[2] 周小卫,沈以赴. 超声波-双脉冲电沉积法制备Ni-CeO2纳米复合镀层, 材料热处理学报, 2012, 33 (02): 127-131. [EI]
[1] 周小卫,沈以赴,靳惠明. Ni-P/n- CeO2复合镀层的制备及耐蚀性能研究, 功能材料, 2011, 42 (02): 305-309. [EI]
2014.12– 至今 教师 江苏科技大学 高分子材料与腐蚀防护系 讲师 副教授
2017.12- 至今 博士后 南京师范大学 化学站 合作导师:兰亚乾 教授
2010.09–2014.12 博士 南京航空航天大学 材料加工工程专业(2015年 校优秀博士学位论文)
2003.09–2010.07 本硕 扬州大学 材料成型及控制工程专业(保研)
工程化学
材料保护
腐蚀学
学校地址:江苏省镇江市丹徒区长晖路666号
邮编:212100
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