1.团队名称:材料腐蚀与表面工程
2.团队负责人:林碧兰研究员
3.团队成员:祁正兵教授,魏斌斌副教授,杨勇高级实验师
4.团队研究方向:
(1)金属腐蚀与防护
(2)建筑材料耐久性
(3)水系电池、超级电容器材料与器件
(4)功能薄膜与新材料
(5)材料硬质与防腐涂层
(6)柔性可穿戴功能材料与器件的研发和构筑
(7)人机界面和人体健康监测探索
5.团队负责人简介:
林碧兰
6.团队成员简介:
7.代表性科研成果:
(1)科研项目
[1]祁正兵,国家自然科学基金青年项目(51601163):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,2017.01~ 2019.12,25万,主持,已结题。
[2]林碧兰,国家自然科学基金(51408517):新型高强钢筋在含氯盐混凝土介质中腐蚀与防护的基础研究,2015.01~2017.12,25万,主持,已结题。
[3]林碧兰,中国博士后科学基金特别资助项目(200902107):土壤介质中PHC管桩金属端头腐蚀和防护研究,2008.12~2010.06,10万,主持,已结题。
[4]林碧兰,中国博士后科学基金面上项目(20080440043):PHC管桩金属端头氯盐腐蚀与防护研究,2008.07~2010.01,5万(一等资助),主持,已结题。
[5]林碧兰,福建省自然科学基金(2025J011297):水果农副品缓蚀阻垢剂的制备及其在循环冷却水中的作用机理,2025.08~2028.07,9万,主持,在研。
[6]魏斌斌,福建省自然科学基金面上项目(2024J011208):基于微流控液滴限域的三维MXene复合柔性锌离子电容器研究,2024.11~2027.11,9万,主持,在研。
[7]祁正兵,福建省自然科学基金面上项目(2021J011211):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,2021.11-2024.11,10万,主持,已结题。
[8]林碧兰,福建省自然科学基金项目(2020J01291):基于柚子树提取物的绿色缓蚀剂及其在金属表面缓蚀和吸附机理,2020.08~2023.07,7万,主持,已结题。
[9]林碧兰,福建省自然科学基金(2017J01489):滨海氯盐土中PHC管桩金属端头的腐蚀和防护机理研究,2017.04~2020.03,10万,主持,已结题。
[10]祁正兵,福建省自然科学基金面上项目(2017J01718):高温摩擦自适应且抗氧化纳米多层硬质涂层的设计制备及性能研究,2017.04~ 2020.03,10万,主持,已结题。
[11]林碧兰,福建省自然科学基金(2012J05099):滨海环境下细晶粒高强钢筋的腐蚀机理研究,2012.04~2014.03,6万元,主持,已结题。
[12]林碧兰,广东省教育厅科技部企业科技特派员行动计划专项(2009B090600106):PHC管桩金属端板耐蚀性检验及长效防腐蚀设计,2008.11~2009.12,20万,主持,已结题。
[13]祁正兵,福建省高校杰出青年人才项目:2017.10~ 2020.10,7万,主持,已结题。
[14] 魏斌斌,福建省中青年教师教育科研重点项目(JZ230047):超柔性有机近红外光电探测器的构筑及健康监测应用研究,2024.01~2026.12,7万,主持,在研。
[15]祁正兵,福建省教育厅省属高校项目(JK2014034):高速干式切削用CrAlYN硬质涂层高温抗氧化行为及机制研究,2014.05~2017.04,6万,主持,已结题。
[16] 魏斌斌,福建省功能材料及应用重点实验室开放基金重点项目(fma2023001):Mo6S8正极空位调控及性能研究,2023.04~2025.12,3万,主持,在研。
[17] 魏斌斌,厦门市自然科学基金青年项目(3502Z202372045):基于可印刷PEDOT:PSS的柔性可穿戴自供电心电监测系统构建,2023.07~2026.07,5万,主持,在研。
[18] 祁正兵,厦门市科技计划项目(3502Z20206070):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,2020.07-2023.06,15万,主持,已结题。
[19]祁正兵,产学研合作课题(艾普光学科技厦门有限公司):镜片镀膜工艺研究,2025.07-2028.07,研究经费:30万,主持,在研。
[20] 祁正兵,产学研合作课题(厦门新瓷材料科技有限公司):功能陶瓷表面金属涂层工艺研究,2024.07-2026.06,研究经费:10万,主持,在研。
(2)学术论文:
[1] B.L. Lin, T.H. Duan, Y.Y. Xu, Corrosion and scaling inhibition effects of Passiflora edulis Sims peel extract in simulated circulating cooling water: Experimental and theoretical insights. Journal of Molecular Structure, 1322 (2025) 140351.
[2] G.Y. Zhang,B.L. Lin, J.L. Li, H. Wang, Y.Q. Sun, Y.Y. Xu, Ginger extract as green corrosion inhibitor for 304 stainless steel in HCl solution: experimental and theoretical calculations. Journal of Materials Science, 60 (2025) 8106–8132.
[3] J.G. Wu,B.B. Wei, Q.X. Guo, H. Zeng, X.T. Yan, M.J. Fang, Y. Zeng, H.F. Liang*, Z.B. Qi*, Hierarchical Nb@NbN core-shell-like nanocolumns for asymmetric supercapacitors, Journal of Colloid and Interface Science, 679 (2025) 391–400.
[4] J.H. Zhu,B.L. Lin*, T.H. Duan, H.Q. Lin, G.Y. Zhang, X.X. Zhou, Y.Y. Xu, Zea mays bracts extract as an eco-friendly corrosion inhibitor for steel in HCl pickling solution: Experimental and simulation studies. Arabian Journal of Chemistry, 17 (2024) 105895.
[5]B.L. Lin, X.X. Zhou, T.H. Duan, C. Zhao, J.H. Zhu, Y.Y. Xu, Experimental and theoretical study on corrosion inhibition and adsorption performance of Ipomoea batatas L. leaf extract for mild steel. Arabian Journal of Chemistry, 17 (2024) 105410.
[6]B.B. Wei, J.X. Zheng, Abhishek, X. Liu, J.G. Wu, Z.B. Qi*, Z. Hou, R. Wang, J.D. Ma, A.N. Gandi*, Z.C. Wang, H.F. Liang*, Design principle of insulating surface protective layers for metallic Zn anodes: a case study of ZrO2,Advanced Energy Materials, 14 (2024) 2401018. (Front cover, ESI高被引)
[7] Z. Hou,B.B. Wei, J.G. Wu, M.J. Fang, H.J. Zeng, X.T. Yan, Q.X. Guo, Y. Zeng*, Z.C. Wang,Z.B. Qi*, Molybdenum nitride thin films coated cobalt-metal-organic framework nanocolumns for high-efficiency alkaline hydrogen evolution, Vacuum 226 (2024)113306.
[8]B.B. Wei, J.G. Wu, Z. Hou, M.J. Fang*, H.J. Zeng, X.T. Yan, Q.X. Guo, Y. Yang, Z.C. Wang*,Z.B. Qi*, Binder-free V-doped CrN thin film electrode enables high performance symmetric supercapacitor,Journal of Alloys and Compounds 977 (2024) 173424.
[9] M.Y. Xue, Y.K. Bao, X. Xu*, L.L. Liao, P. Li, H. Zhang, D.L. Li,B.B. Wei*, S.W. Duo*, Eco-friendly and large-scale fabrication of NiMoN/Ni (OH)2/NF as highly efficient and stable alkaline hydrogen evolution reaction electrode. International Journal of Hydrogen Energy, 82 (2024) 655–661.
[10]B.L. Lin, J.J. Shao, C. Zhao, X.X. Zhou, F. He, Y.Y. Xu, Passiflora edulis Sims peel extract as a renewable corrosion inhibitor for mild steel in phosphoric acid solution. Journal of Molecular Liquids, 375 (2023) 121296. (ESI高被引)
[11] C. Zhao,B.L. Lin, X.X. Zhou, J.H. Zhu, T.H. Duan, Y.Y. Xu. Corrosion inhibition and adsorption behavior of Musa basjoo siebold leaves extract on mild steel in H3PO4 solution: Experimental and theoretical studies. Protection of Metals and Physical Chemistry of Surfaces, 59 (2023) 1010–1027.
[12]Z.B. Qi, Y. Zeng, Z. Hou, Y. Yang, B.L. Lin,B.B. Wei*, Z.C. Wang, H.F. Liang H*. Heterointerface engineering of Ni-Ni3N hierarchical nanoarrays for efficient alkaline hydrogen evolution. Nano Research, 16 (2023) 4803–4811.
[13]Z.B. Qi,B.B. Wei*, H. Shen, Z. Hou, M.J. Fang, J.G. Wu, H.F. Liang*, Z.C. Wang*, Sputtered binder-free Cu3N electrode materials for high-performance quasi-solid-state asymmetric supercapacitors.Dalton Transactions, 52 (2023) 6693–6699.
[14]B.B. Wei, Z.T. Wang, H.T. Guo, F. Xie, S.M. Cheng, Z.R. Lou, C.J. Zhou, H.J. Ji, M. Zhang, X.H. Wang, X.C. Jiao, S.H. Ma*, H.-M. Cheng*, X.M. Xu*, Ultraflexible tattoo electrodes for epidermal and in vivo electrophysiological recordings. Cell Reports Physical Science, 4 (2023) 101335.
[15] R. Wang, Q.F. Wu, M.J. Wu, J.X. Zheng, J. Cui, Q. Kang,Z.B. Qi*, J.D. Ma, Z.C. Wang, H.F. Liang*. Interface engineering of Zn meal anodes using electrochemically inert Al2O3 protective nanocoatings. Nano Research, 15 (2022) 7227–7233.
[16] J.X. Zheng, Huang Z, F.J. Ming, Y. Zeng, B.B. Wei, Q. Jiang,Z.B. Qi*, Z.C. Wang, H.F. Liang*. Surface and interface engineering of Zn anodes in aqueous rechargeable Zn-ion batteries. Small, 21 (2022) 2200006. (ESI高被引)
[17] J.X. Zheng, Z.H. Huang, Y. Zeng, W.Q. Liu,B.B. Wei,Z.B. Qi*, Z.C. Wang, C. Xia, H.F. Liang*. Electrostatic shielding regulation of magnetron sputtered Al-based alloy protective coatings enables highly reversible zinc anodes. Nano Letters, 22 (2022) 1017–1023. (ESI高被引)
[18]B.L. Lin, J.J. Shao, Y.Y. Xu, Y.M. Lai, Z.N. Zhao, Adsorption and corrosion of renewable inhibitor of Pomelo peel extract for mild steel in phosphoric acid solution. Arabian Journal of Chemistry 14 (2021) 103114.
[19] J.X. Zheng, Z. Cao, F.W. Ming, H.F. Liang*,Z.B. Qi, W.Q. Liu*, C. Xia, C.X. Chen, L.G. Cavallo, Z.C. Wang*. Preferred orientation of TiN coatings enables stable zinc anodes. ACS Energy Letters, 7 (2021) 197–203. (ESI高被引)
[20] 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.
[21] Y. Zeng, Z. Cao, J.Z. Liao, H.F. Liang*,B.B. Wei, X. Xu*, H.W. Xu, J. X. Zheng, W.J. Zhu, L.G. Cavallo, Z.C. Wang*, Construction of hydroxide p-n junction for water splitting electrocatalysis, Applied Catalysis B: Environmental, 292, (2021) 120160.
[22] Y. Zeng, J.Z. Liao,B.B. Wei, Z. Huang, W.J. Zhu, J.X. Zheng, H.F. Liang*, Y.Z. Zhang*, Z.C. Wang*, Tuning the electronic structure of NiMoO4 by coupling with SnO2 for high-performance hybrid supercapacitors, Chemical Engineering Journal, 409 (2021) 128297.
[23]B.L. Lin, S.W. Zheng, J.P. Liu, Y.Y. Xu, Corrosion inhibition effect of cefotaxime sodium on mild steel in acidic and neutral media. International Journal of Electrochemical Science, 15 (2020) 2335–2353.
[24]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.
(3)授权发明专利
[1]徐晓敏,魏斌斌,成会明,超柔性电极用于皮肤表面及真皮层纹身的电生理信号的监测方法, 2024.3,中国, CN117653126A。
[2]林碧兰,赵晨,邵俊杰,周欣欣,何帆,一种百香果果皮提取物缓蚀剂、制备方法及其应用, 2023,1,中国, CN202210994426.8。
[3]祁正兵,魏斌斌,吴金港,侯拙,方敏杰,一种电极材料的制备方法, 2023.8.22,CN116631789A.
[4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,中国, ZL202011624320.6。
[5]王周成,吴正涛,魏斌斌,张东方,一种金色及玫瑰金色氮化物涂层的制备方法, 2019.8,中国, ZL 201710027850.4。
[6]王周成,吴正涛,张东方,魏斌斌,一种相对介电系数可调氮化铝涂层的制备方法, 2019.4,中国, ZL 201610399691.6。
[7]王周成,魏斌斌,张东方,一种过渡金属氮化物超级电容器涂层材料的制备方法, 2019.2,中国, ZL 201710027811.4。
[8]王周成,张东方,魏斌斌,吴正涛,镁合金上制备铪/氮化硅导电且耐蚀纳米复合涂层的方法, 2019.1,中国, ZL 201610399687.X.
[9]王周成,张东方,魏斌斌,吴正涛,镁合金上制备铪/氮化硅导电且耐蚀多层结构涂层的方法, 2019.1,中国, ZL 201610399673.8.
[10]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,中国, ZL201910058927.3。
[11]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,中国, ZL201910059513.2。
[12]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,中国, ZL201910059774.4。
(4)科研奖励
[1]祁正兵,高性能PCB硬质合金涂层刀具关键技术开发及产业化,厦门市科学技术进步奖二等奖(排名第二),厦门市人民政府,2025.04.
