个人简历

魏俊俊，工学博士，教授，项目博导。2003年毕业于北京科技大学材料科学与工程学院，获学士学位；2009年获北京科技大学材料学博士学位；北京大学博士后，美国佐治亚理工学院访问学者。担任佛山市碳电子信息材料工程技术研究中心主任，兼任《真空与低温》等期刊青年编委。主要致力于CVD金刚石及其相关材料的基础理论及应用研究工作。作为项目负责人先后承担国家自然科学基金青年/面上项目、国防重大专项（子课题）、军科委基础加强，以及装发预研等多项国家级课题。以第一作者/通讯作者发表学术论文30余篇；获得授权专利10余项，参编专著1部。获得教育部技术发明一等奖1项，北京市科技进步三等奖1项。主讲《新型功能材料与结构》、《薄膜理论与制备技术》和《先进材料导论》等本科生及研究生课程。

研究领域

"""""1. 高品质CVD金刚石单晶/多晶膜制备及应用\r
2. 金刚石微纳加工技术和应用\r
3. 高功率电子器件热管理材料及器件\r
4. （纳米）金刚石表面功能化修饰及其应用\r
5. 碳基薄膜及功能器件的应用开发"

近期论文

X.B. Yan, J.J. Wei*, K. An, et al. Graphitization of CVD diamond grain boundaries during transient heat treatment [J]. Diamond and Related Materials, 2021, 116: 108433.\r
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Y.F. Liang, Y.T. Zheng*, J.J. Wei*, et al. Effect of grain boundary on polycrystalline diamond polishing by high-speed dynamic friction [J]. Diamond and Related Materials, 2021, 117: 108461.\r
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X. Jia, J.J. Wei*, Y.B. Huang, et al. Fabrication of low stress GaN-on-diamond structure via dual-sided diamond film deposition[J]. Journal of Materials Science, 2021, 56: 6903-6911.\r
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Z.N Qi, Y.T.Zheng, J.J. Wei*, et al. Surface treatment of an applied novel all-diamond microchannel heat sink for heat transfer performance enhancement[J], Applied thermal engineering, 2020, 177: 115489.\r
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Z.N Qi, Y.T.Zheng, X.H. Zhu, J.J. Wei*, et al.An ultra-thick all-diamond microchannel heat sink for single-phase heat transmission efficiency enhancement[J], Vacuum, 2020, 177: 109377.\r
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X. Jia, J.J. Wei*, Y.B. Huang, et al. Enhancement of diamond seeding on aluminum nitride dielectric by electrostatic adsorption for GaN-on-diamond preparation[J]. Journal of Materials Research, 2020, 35(5): 1-8.\r
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X. Jia, J.J. Wei*, Y.C. Kong, et al, The influence of dielectric layer on the thermal boundary resistance of GaN-on-diamond substrate[J], Surface and Interface Analysis, 2019, 51(7):783-790.\r
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J.J. Wei, X.Y. Zhu, L.X. Chen, et al, High quality anti-sticking coating based on multilayer structure[J], Surface and Coatings Technology, 2019, 362:72-77.\r
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X.B. Yan, J.J. Wei*, K. An, et al, Quantitative study on graphitization and optical absorption of CVD diamond films after rapid heating treatment[J], Diamond and Related Materials, 2018, 87: 267-273.\r
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X.B. Yan, J.J. Wei*, J.C. Guo, et al, Mechanism of graphitization and optical degradation of CVD diamond films by rapid heating treatment[J], Diamond and Related Materials, 2017, 73: 39-46.\r
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J.J. Wei, J.L. Liu, L.X. Chen, et al, Amination of diamond film by ammonia microwave plasma treatment[J], Diamond and Related Materials, 2015, 54(1): 34-38.\r
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J.J. Wei, H. Kim, D.C. Lee, et al, Influence of annealing on ionic transfer and storage stability of Li2S–P2S5 solid electrolyte[J], Journal of Power source, 2015, 294: 495-500.\r
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J.J. Wei, X.H. Gao, L.F. Hei, et al. Energy consumption of electro-oxidation systems with boron-doped diamond electrodes in the pulse current mode[J]. International Journal of Minerals, Metallurgy and Materials, 2013, 20(1):106-112.\r
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J.J. Wei, C.M. Li, X.H. Gao, et al. Influence of boron dopant on formation and adhesion of diamond films on titanium substrates[J]. Applied Surface Science, 2012, 258(18): 6909-6913.\r
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J.J. Wei, X.P. Zhu, J.R. Ni. Electrochemical oxidation of phenol at boron-doped diamond electrode in pulse current mode[J]. ElectrochimicaActa. 2011, 56(15): 5310-5315.\r
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J.J. Wei, X.P Zhu, F.X. Lv, et al. Comparative study of oxidation ability between boron-doped diamond (BDD) and lead oxide (PbO2) electrodes[J]. International Journal of Minerals, Metallurgy and Materials. 2011, 18(5): 589-593.\r
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J.J. Wei, Q. He, X.P. Zhu, et al. Synthesis of boron doped diamond films by MWCVD and Anodic oxidation of p-Nitrophenol on Ti/BDD electrode[J]. Journal of Synthetic Crystals. 2009, 38(2): 422-425.\r
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X.Y. Zhu, J.J. Wei*, L.X. Chen, et al, Anti-sticking Re-Ir coating for glass molding process[J], Thin Solid Films, 2015, 584: 305-309.