魏斌斌,博士(后),厦门理工学院副教授(直接审定),硕士生导师,材料科学与工程系副主任,福建省高层次C类人才,厦门市高层次C类人才。2015年保送厦门大学化学化工学院硕博连读,2020年获厦门大学化学化工学院应用化学专业工学博士学位;2020-2022年在清华大学材料科学与工程博士后流动站从事博士后研究工作。主要从事能源和电催化领域纳米材料的设计和合成、柔性可穿戴功能材料与器件的研发和构筑及人机界面和人体健康监测探索,在Adv. Energy Mater.,Cell. Rep. Phys. Sci.,Appl. Catal., B,Small,Adv. Sci.,Chem. Eng. J.,J. Mater. Chem. A,J. Energy Chem.,Nano Lett.,Chem. Commun.,J. Power Sources等国际知名期刊上发表论文42篇,第一作者论文15篇,通讯作者2篇,授权5项国家发明专利,公开2项国家发明专利。主持福建省自然科学基金面上项目、厦门市自然科学基金青年项目、福建省中青年教师教育科研重点项目、厦门理工学院高层次人才科研启动项目、福建省功能材料及应用重点实验室开放基金重点项目,作为主要研究人员参与国家自然科学基金面上项目、国家科技支撑计划项目等,曾获大连市第二十届大学生数学竞赛一等奖、本科国家奖学金、辽宁省普通高等学校优秀毕业生、研究生国家奖学金、厦门大学优秀学生干部、厦门大学优秀共产党员、厦门大学优秀毕业生、厦门理工学院优秀教师等荣誉。
主要研究领域:
[1] 能源和电催化领域纳米材料的设计和合成
[2] 柔性可穿戴功能材料与器件的研发和构筑
[3] 人机界面和人体健康监测探索
近年来承担的主要科研项目:
[1]福建省自然科学基金面上项目(批准号:2024J011208),2024-11至2027-11,9万,主持;
[2] 厦门市自然科学基金青年项目(批准号:3502Z202372045),2023-07至2026-07,5万,主持;
[3] 福建省中青年教师教育科研重点项目(批准号:JZ230047),2024-01至2026-12,7万,主持;
[4] 厦门理工学院高层次人才科研启动项目(批准号:YKJ23012R),2023-06至2026-05,15万,主持;
[5] 福建省功能材料及应用重点实验室开放基金重点项目(批准号:fma2023001),2023-04至2025-12,3万,主持;
近年来发表的代表性学术论著:
[1] 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, Adv. Energy Mater. 14, 2401018 (2024). (Front cover)
[2] 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 Rep. Phys. Sci. 4, 101335 (2023).
[3] B. B. Wei, H. F. Liang*, R. R. Wang, D. F. Zhang, Z. B. Qi, Z. C. Wang*, One-step synthesis of graphitic-C3N4/ZnS composites for enhanced supercapacitor performance. J. Energy Chem. 27, 472–477 (2018).
[4] Z. B. Qi, Y. Zeng, Z. Hou, W. J. Zhu, B. B. Wei*, Y. Yang, B. L. Lin, H. F. Liang*, Heterointerface engineering of Ni/Ni3N hierarchical nanoarrays for efficient alkaline hydrogen evolution. Nano Res. 16, 4803-4811 (2022).
[5] J.G. Wu#, B.B. Wei#, Q.X. Guo, H.J. 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. J. Colloid Interface Sci. 697, 391-400 (2025).
[6] B. B. Wei, H. F. Liang*, D. F. Zhang, Z. T. Wu, Z. B. Qi, Z. C. Wang*, CrN thin filmsprepared by reactive DC magnetron sputtering for symmetric supercapacitors. J. Mater. Chem. A 5, 2844–2851 (2017). (one of Journal of Materials Chemistry A HOT Papers, 2017)
[7] B. B. Wei, G. Mei, H. F. Liang*, Z. B. Qi, D. F. Zhang, H. Shen, Z. C. Wang*, Porous CrN thin films by selectively etching CrCuN for symmetric supercapacitors. J. Power Sources 385, 39–44 (2018). (reported by Science Trends)
[8] 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. J. Power Sources 481, 228842 (2021).
[9] B. B. Wei, H. F. Liang*, Z. B. Qi, D. F. Zhang, H. Shen, W. S. Hu, Z. C. Wang*, Construction of 3D Si@Ti@TiN thin film arrays for aqueous symmetric supercapacitors. Chem. Commun. 55, 1402–1405 (2019).
[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. Int. J. Hydrogen Energy 44, 6612–6617 (2019).
[11] 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, 113306 (2024).
[12] 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, J. Alloy. Compd. 977, 173424 (2024).
[13] Z. R. Lou, J. Tao, B. B. Wei, X. Y. Jiang, S. M. Cheng, Z. H. Wang, C. Qin, R. Liang, H.T. Guo, L. P. Zhu, P. Müller-Buschbaum, H. -M. Cheng*, X. M. Xu*, Near-infrared organic photodetectors toward skin-integrated photoplethysmography-electrocardiography multimodal sensing system, Adv. Sci. 10, 2304174 (2023).
[14] B. B. Wei, G. S. Tang, H. F. Liang*, Z. B. Qi, D. F. Zhang, W. S. Hu, H. Shen, Z. C. Wang*, Bimetallic vanadium-molybdenum nitrides using magnetron co-sputtering as alkaline hydrogen evolution catalyst. Electrochem. Commun. 93, 166–170 (2018).
[15] 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. Int. J. Hydrogen Energy 82, 655-661 (2024).
[16] 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 Trans. 52, 6693-6699 (2023)
[17] B. B. Wei, P. C. Yao, G. S. Tang, Z. B. Qi*, W. S. Hu, J. Q. Hong, C. X. Chen, Z. C. Wang*, Mn-doped CoSe2 nanosheets as high-efficiency catalysts for oxygen evolution reaction. Dalton Trans. 48, 14238–14241 (2019).
[18] B. B. Wei, H. F. Liang*, D. F. Zhang, Z. B. Qi, H. Shen, Z. C. Wang*, Magnetron sputtered TiN thin films toward enhanced performance supercapacitor electrodes. Mater. Renew. Sustain. Energy 7, 11 (2018).
近年来获授权专利情况:
[1] 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.
[2] 徐晓敏, 魏斌斌, 成会明, PEDOT:PSS/EG/LiTFSI导电墨水与超柔性电极及电生理信号的监测方法, 2022.6.3, CN114574040A.
[3] 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, 2019.2.22, 中国, ZL 201710027811.4.
[4] 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, 2019.1.22, 中国, ZL 201610399687.X.
[5] 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, 2019.1.8, 中国, ZL 201610399673.8.
[6] 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, 2019.8.16, 中国, ZL 201710027850.4.
[7] 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, 2019.4.10, 中国, ZL 201610399691.6.
联系方式
Email: bbwei@xmut.edu.cn
通讯地址:福建省厦门市集美区理工路600号厦门理工学院综合楼1309
