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付本威

副研究员
所属二级机构:复合材料研究所
通讯地址:上海市闵行区东川路800号材料学院H楼313室
电子邮箱:fuwei880603@sjtu.edu.cn
研究情况

长期从事高性能热管理材料及器件的基础与应用研究,近年来为国家重要工程提供多种热管理方案及开发高性能热管理器件。立足于微纳尺度相变传热理论,将材料科学与工程热物理结合,运用多学科的理论与方法,设计、制备多种高性能热管理材料及器件,满足大功率芯片、空气舵、支板火箭前缘等诸多领域对材料及器件导热率、高热流、热膨胀系数、密度、耐温范围、力学强度等参数的不同需求。相关研究成果发表在SciencePhysical Review LettersMaterials TodayACS NanoNano LettersMaterials and DesignInternational Journal of Heat and Mass Transfer等国际著名期刊共计60余篇,获授权发明专利10余项,主持国家自然科学基金、173基础加强课题、科技部重点研发项目子课题、军科委创新特区、航天集团及中石油集团科研合同等纵横向项目10余项。

教育经历
  • 2013-09 ~ 2017-06    大连海事大学   轮机工程学院     博士
工作经历
  • 2024-01 ~ 至今    上海交通大学 材料科学与工程学院  副研究员
  • 2019-07 ~ 2023-12    上海交通大学材料科学与工程学院  助理研究员
  • 2017-07 ~ 2019-06    上海交通大学材料科学与工程学院  博士后
研究方向
  • 高性能热管理材料及器件
  • 微纳米尺度相变传热
论文信息
  • 1. W.Z. Cheng, W.L. Zhang, J.R. Tao, F.Y. Zheng, B. Chu, R.T. Wang, C. Fang, L. Huai, P. Tao, C.Y. Song, W. Shang, B.W Fu*, and T. Deng*. Octopus-like Microstructure of Graphene Oxide Generated through Laser–Microdroplet Interaction for Adhesive Coating, ACS Nano 2024, 18(11): 7877–7889.
  • 2. W.Z. Cheng; H.R. Zhu; F.Y. Zheng; B. Chu; R.T. Wang; J.R. Tao; W.L. Zhang; P. Tao; C.Y. Song; W. Shang; B.W. Fu*; T. Deng*; Phototaxis Flight of Microdroplets in a Laser, Physical Review Letters, 2024, 132: 104001.
  • 3. B. Chu; B. Liu; B.W. Fu*; R.T. Wang; W.Z. Cheng; P. Tao; C.Y. Song; W. Shang; M.D. Dickey; T. Deng*; Self-Assembled Liquid Metal Nanoporous Film with Durability for Efficient Phase-Change Thermal Energy Management via Surface and Interface Engineering, Materials Today, 2024, 73:56-65.
  • 4. Q.C. Shen; M.D. Jiang; R.T. Wang; K.X. Song; M.H. Vong; W.J. Jung; F. Krisnadi; R.Y. Kan; F.Y. Zheng; B.W. Fu; P. Tao; C.Y. Song; G.M. Weng; B. Peng; J. Wang; W. Shang*; M.D. Dickey*; T. Deng*; Liquid Metal-based Soft, Hermetic, and Wireless Communicable Seals for Stretchable Systems, Science, 2023, 379(6631): 488-493.
  • 5. B. Chu; B.W. Fu*; L.N. Dong; W.Z. Cheng; R.T. Wang; F.Y. Zheng; C. Fang; P. Tao; C.Y. Song; W. Shang; T. Deng*; A Graphene Quantum Dot Film with a Nanoengineered Crack-like Surface via Bubble-Induced Self-Assembly for High-Power Thermal Energy Management Applications, Nano Letters, 2023, 23(1): 259-266.
  • 6. F.Y. Zheng, Q.C. Shen, Z.Y. Wang, W.Z. Cheng, R.T. Wang, C. Fang, B. Chu, J.R. Tao, W.L. Zhang, P. Tao, C.Y. Song, W. Shang, B.W. Fu*, T. Deng*; Lightweight All Graphene-Based Two-Phase Heat Transport Devices, Advanced Materials Interfaces, 2023, 10(12): 202201687.
  • 7. B. Chu; B.W. Fu*; R.T. Wang; W.Z. Cheng; P. Tao; C.Y. Song; W. Shang; T. Deng*; Recent Progress in Films with Nanoengineered Surfaces via Bubble-Induced Self-Assembly for Energy Applications, Journal of Materials Chemistry A, 2023,11: 18478-18501
  • 8. 陶锦燃; 程为铮; 张万里; 郑飞宇; 付本威*; 邓涛, 热管腐蚀的研究进展与展望, 中国材料进展, 2022, 41(2):140-147.
  • 9. C. Fang; F.Y. Zheng; B. Chu; W.Z. Cheng; H.X Guo; H.B. Chen; R.Z. Wang; C.Y. Song; P. Tao; W. Shang; B.W. Fu*; T. Deng*; Molybdenum Copper based Ultrathin Two-Phase Heat Transport System for High Power-Density Gallium Nitride Chips, Applied Thermal Engineering, 2022, 211: 118458.
  • 10. B. Chu; F.Y. Zheng; C. Fang; R.T. Wang; W.Z. Cheng; J.R. Tao; W.L. Zhang; P. Tao; C.Y. Song; W. Shang; J.G. Cao; B.W. Fu*; T. Deng*; In Situ Boiling-Induced Self-Assembly of Stably Self-Dispersed Crumpled Graphene for Efficient Utilization of Thermal Energy, International Journal of Heat and Mass Transfer, 2022, 197: 123384-123384.
  • 11. H.B. Chen; F.Y. Zheng; W.Z. Cheng; P. Tao; C.Y. Song; W. Shang; B.W. Fu*; T. Deng*; Low Thermal Expansion Metal Composite-based Heat Spreader for High Temperature Thermal Management, Materials and Design, 2021, 208: 109897.
  • 12. B. Chu; C. Fang; F.Y. Zheng; W.Z. Cheng; R.T. Wang; W.L. Zhang; J.R. Tao; L. Huai; P. Tao; C.Y. Song; W. Shang; B.W. Fu*; T. Deng*; Hybrid Graphene Oxide/Crumpled Graphene Film via Subcooled Boiling-Induced Self-Assembly for Highly Efficient Boiling Heat Transfer, Materials Today Energy, 2021, 22: 100868.
  • 13. Y.N. Luo#; B.W. Fu#; Q.C. Shen; W. Hao; J.L. Xu; M.D. Min; Y.N. Liu; S. An; C.Y. Song; P. Tao; J.B. Wu; W. Shang*; T. Deng*; Patterned Surfaces for Solar-Driven Interfacial Evaporation, ACS Applied Materials & Interfaces, 2019, 11(7): 7584-7590.
  • 14. B.W. Fu#; J.Y. Zhang#; H.B. Chen; H.X. Guo; C.Y. Song; W. Shang; P. Tao*; T. Deng*; Optical Nanofluids for Direct Absorption-based Solar-Thermal Energy Harvesting at Medium-to-High Temperatures, Current Opinion in Chemical Engineering, 2019, 25: 51-56.
专利著作
  • 1. 付本威; 邓涛; 郑飞宇; 储奔; 程为铮; 怀雷; 陶鹏; 宋成轶; 尚文; 一种基于气液相变的金属基复合材料器件及其制备方法, 2022-8-9, 中国, CN201911250688.8 (专利)
  • 2. 付本威; 邓涛; 郑飞宇; 储奔; 程为铮; 怀雷; 陶鹏; 宋成轶; 尚文; 基于气液相变的高温电子封装基板材料器件及其制备方法, 2020-5-22, 中国, CN202010443772.8 (专利)
  • 3. 怀雷; 付本威; 邓涛; 尚文; 陶鹏; 宋成轶 ; 一种纯Al作为中间材料层的65%碳化硅颗粒增强铝基复合材料的焊接方法, 2022-3-25, 中国, CN202110662585.3 (专利)
  • 4. 付本威; 怀雷; 程为铮; 邓涛; 尚文; 陶鹏 ; 一种铝基碳化硅基体真空压力烧结多孔铝粉的方法, 2023-7-12, 中国, 202310853177.5 (专利)
  • 5. 张万里; 付本威; 程为铮; 陶锦燃; 邓涛; 尚文; 陶鹏 ; 一种适用于多种材料的动态温差腐蚀测试系统及方法, 2022-5-20, 中国, CN202110567323.9 (专利)
  • 6. 程为铮; 付本威; 张万里; 陶锦燃; 邓涛; 尚文; 陶鹏 ; 一种部分褶皱氧化石墨烯的制备方法, 2022-03-29, 中国, CN202210358138.3 (专利)
  • 7. 方程; 付本威; 储奔; 程为铮; 张万里; 陶锦燃; 邓涛; 尚文; 陶鹏 ; 温度可控的沸腾镀膜装置及曲面沸腾沉积三维结构工艺, 2022-03-29, 中国, CN202210318993.1 (专利)
  • 8. 陶锦燃; 付本威; 程为铮; 张万里; 方程; 尚文; 陶鹏; 邓涛 ; 一种毛细铝管内壁均匀阳极氧化的装置及其工艺, 2022-03-22, 中国, CN202210289887.5 (专利)