研究领域为特种精密加工制造，研究方向：

1. 原子及近原子尺度制造
2. 电解加工
3. 激光增材制造

欢迎对激光加工、电加工领域感兴趣同学申请加入本课题组攻读硕士/博士学位！

1. Nanomanufacturing and Metrology，青年编委
2. The International Journal of Advanced Manufacturing Technology; Journal of Manufacturing processes; Precision Engineering; Nanotechnology and Precision Engineering; Journal of The Electrochemical Society; Electrochemistry Communications; Engineering; International Journal of Electrical Machining; Micromachines期刊审稿人

1. 海外优青人才，国家级，2022
2. 上海市海外高层次人才，上海市，2021
3. 复旦新工科人才，复旦大学，2021
4. Most Cited Reviewer Paper，制造顶级期刊 Int. J. Mach. Tools Manuf.，2020
5. SEAL of EXCELLENCE，欧盟H2020-MSCA-IF项目，2018
6. 精密工学会研究奖励赏，日本精密工学会，2017

学习经历

• 2013.10 - 2016.09，东京大学，精密工程系，博士研究生
• 2010.09 - 2013.06，厦门大学，机械工程系，硕士研究生
• 2006.09 - 2010.06，吉林大学，材料成型及控制工程系，本科生

工作经历

• 2021.11 - 至今，复旦大学，青年研究员
• 2020.07 - 2021.10，东京大学，生产技术研究所，助理教授
• 2019.12 - 2021.09,  日本理化研究所，RIKEN 光量子工学研究中心，访问科学家(兼职)
• 2018.12 - 2020.06，都柏林大学，机械工程系，Marie Skłodowska-Curie Career-Fit 研究员
• 2017.12 - 2018.11，都柏林大学，机械工程系，博士后
• 2016.10 - 2017.11，东京大学，精密工学系，项目研究员

大学物理

激光工程

激光原理与技术

1. Han Wei, Kong Lingbao, Xu Min. Advances in selective laser sintering of polymers. International Journal of Extreme Manufacturing, 2022, 4: 042002.
2. Peng Xing, Kong Linbao, Han Wei, Wang Shixiang. Multi-Sensor Image Fusion Method for Defect Detection in Powder Bed Fusion, Sensors, 2022, 22(20): 8023.
3. Han Wei, Thomas Mathew Paven, Kolagatla Srikanth, J. Rodriguez Brian, Fang Fengzhou*, Toward Single‑Atomic‑Layer Lithography on Highly Oriented Pyrolytic Graphite Surfaces Using AFM‑Based Electrochemical Etching, Nanomanufacturing and Metrology, 2022, 5: 32–38.
4. Thomas Mathew Paven, Han Wei, J. Rodriguez Brian, Fang Fengzhou*, Structure Fabrication on Silicon at Atomic and Close-To-Atomic Scale Using Atomic Force Microscopy: Implications for Nanopatterning and Nanodevice Fabrication, Micromachines, 2022, 13: 524.
5. Han Wei, Amano Akihito, Mori Miki, Niino Toshiki*, Investigation of the activation mechanisms of laser-sintered LDS materials by CO2 and fiber laser, Seisan-kenkyu, 2022, 73(5), 1-4.
6. Han Wei, Fang Fengzhou*, Orientation effect of electropolishing characteristics of 316L stainless steel fabricated by laser powder bed fusion. Frontiers of Mechanical Engineering, 2021, 1-13. 
7. Han Wei*, Kunieda Masanori, Research of Micro EDM/ECM method in same electrolyte with running wire tool electrode. Precision Engineering, 2021, 70: 1-14. 
8. Han Wei, Fang Fengzhou*, Eco-friendly NaCl-based electrolyte for electropolishing 316L stainless steel. Journal of Manufacturing Processes, 2020, 58: 1257-1269.
9. Han Wei, Fang Fengzhou*, Two-step electropolishing of 316L stainless steel in a sulfuric acid-free electrolyte. Journal of Materials Processing Technology, 2020, 279: 116558. 
10. Han Wei, Fang Fengzhou*, Investigation of electropolishing characteristics of tungsten in eco-friendly sodium hydroxide aqueous solution. Advances in Manufacturing, 2020, 8: 265-278. 
11. Han Wei*, Kunieda Masanori, Precision electrochemical machining of tungsten micro-rods using wire electrochemical turning method. The International Journal of Advanced Manufacturing Technology, 2020, 111/1: 295-307. 
12. Han Wei*, Kunieda Masanori, Fabrication of tungsten micro-rods using electrolyte jet turning method, International Journal of Electrical Machining, 2020, 25: 38-44.
13. Han Wei, Fang Fengzhou*, Investigation of electrochemical properties of electropolishing Co-Cr dental alloy. Journal of Applied Electrochemistry, 2019, 50: 367-381. 
14. Han Wei, Fang Fengzhou*, Electropolishing of 316L Stainless Steel Using Sulfuric Acid-Free Electrolyte, Journal of Manufacturing Science and Engineering. Transactions of the ASME, 2019, 141: 10. 
15. Han Wei, Fang Fengzhou*, Fundamental aspects and recent developments in electropolishing. International Journal of Machine Tools & Manufacture, 2019, 139: 1-23. 
16. Han Wei*, Kunieda Masanori, A novel method to switch machining mode between Micro-ECM and Micro-EDM using oxide film on surface of tungsten electrode. Precision Engineering, 2019, 56: 455-465. 
17. Han Wei*, Kunieda Masanori, Wire electrochemical grinding of tungsten micro-rods using neutral electrolyte, Precision Engineering, 2018, 52: 458-468. 
18. Han Wei*, Kunieda Masanori, Wire electrochemical grinding of tungsten micro-rod with electrostatic Induction feeding method. Procedia CIRP, 2018, 68: 699-703. 
19. Han Wei*, Kunieda Masanori, Fabrication of tungsten micro-rods by ECM using ultra-short-pulse bipolar current. CIRP Annals-Manufacturing Technology, 2017, 66/1: 193-196. 
20. Han Wei*, Kunieda Masanori, Research on improvement of machining accuracy of micro-rods with electrostatic induction feeding ECM. Precision Engineering, 2017, 50: 494-505. 
21. Han Wei*, Kunieda Masanori, Micro-machining of tungsten with electrostatic induction feeding ECM method. 電気加工技術 (Japan), 2017, 41(129), 7-10. 
22. Han Wei*, Kunieda Masanori, Fabrication of micro-rods with electrostatic induction feeding ECM. Journal of Materials Processing Technology, 2016, 235: 92-104. 
23. Han Wei*, Kunieda Masanori, Research on servo feed control of electrostatic induction feeding micro-ECM. Precision Engineering, 2016, 45: 195-202. 
24. Han Wei*, Kunieda Masanori, Influence of machining conditions on machining characteristics of Micro-rods by Micro-ECM with electrostatic induction feeding method. Procedia CIRP, 2016, 42: 819-824.