2016 - 2021 英国思克莱德大学，设计制造及工程管理学院，哲学博士

2014 - 2016 哈尔滨工业大学，机电工程学院，硕士 

2009 - 2014 大连交通大学，机械工程及自动化+软件工程，双学士

2026 - 至今 365best体育亚洲官网，365best体育亚洲官网，长聘教轨副教授

2023 - 2025 英国巴斯大学，纳米制造研究中心，博士后

2021 - 2023 英国思克莱德大学，超精密制造研究中心，博士后

长期聚焦晶圆级高分辨纳米制造与超极限原子尺度加工，围绕光子器件功能结构构建与跨尺度机理建模，发展高精度、可扩展的先进微纳制造方法，服务于光子芯片、高速光互联、先进传感及新一代信息通信等关键领域。

1. 晶圆级高分辨纳米制造

2. 超极限原子尺度制造

3. 光子器件功能纳米结构高精度制造与片上集成

4. 原子尺度建模与跨尺度制造机理

欢迎机械、光学、物理、化学等相关学科背景的硕士、博士及博士后加入团队进行学术研究。本人长期在英国求学与工作，至今与英国帝国理工学院（Imperial College London）、巴斯大学（University of Bath）、思克莱德大学（University of Strathclyde）保持紧密合作，将为团队优秀成员积极创造海外联合培养、攻读学位及从事博士后研究的机会。

1. 欧洲精密工程与纳米技术学会（European Society for Precision Engineering and Nanotechnology（EUSPEN））会员

2. 国际工程与技术学会（International Academy of Engineering and Technology（AET)）会员

3.《Nanofabrication》青年编委

4.《International Journal of High-End Manufacturing》青年编委

5.《Biomaterials and Polymers Horizon》青年编委

学术期刊审稿人：ACS Nano，International Journal of Machine Tools and Manufacture，International Journal of Extreme Manufacturing，Carbon，International Journal of Mechanical Sciences，Journal of Manufacturing Processes，Applied Surface Science，Wear，Tribology International，Optical Express，Precision Engineering，Vacuum，Nanomanufacturing and Metrology，npj Advanced Manufacturing

国家自然科学基金优秀青年基金（海外），负责人

期刊论文:

[1] Mao H., Ahmad Z., Xin L., Fan P., and Cabral Joao, (2026), Rapid nanocellulose wet nanoimprint lithography for tunable structural color, ACS Nano, vol. 20, p. 823-834.

[2] Fan P.*, Fahmy R., Green B., and Shields P., (2025), The impact of positioning error in Double Displacement Talbot Lithography, Optics Express, vol. 33, p. 29912-29926.

[3] Fan P., Katiyar N., Mao H., and Goel S., (2024), Anisotropic plasticity mechanisms in a newly synthesised High Entropy Alloy investigated using atomic simulations and nanoindentation experiments, Journal of Alloys and Compounds, vol. 970, p. 172541.

[4] Pratap A., Katiyar N., Fan P., and Joshi S., (2024), Forest hardening and Hirth lock during grinding of copper evidenced by MD simulations, Manufacturing Letters, vol. 40, p. 58-64.

[5] Fan P., Katiyar N., Goel S., and Luo X., (2023), Oblique nanomachining of Gallium Arsenide explained using AFM experiments and MD simulations, Journal of Manufacturing Processes, vol. 90, p. 125-138.

[6] Gao J., Luo X., Xie W., and Fan P., (2023), Atomistic insights into bias-induced oxidation on passivated silicon surface through ReaxFF MD simulation, Applied Surface Science, vol. 626, p. 157253.

[7] Fan P., Katiyar N., Zhou X., and Goel S., (2022), Uniaxial pulling and nano-scratching of a newly synthesised high entropy alloy, APL Materials, vol. 10, p. 111118.

[8] Fan P., Goel S., Luo X., and Upadhyaya H., (2022), Atomic scale friction studies on single crystal GaAs using AFM and molecular dynamics simulation, Nanomanufacturing and Metrology, vol. 5, p. 39-49.

[9] Fan P., Gao J., Mao H., Yan Y., and Luo X., (2022), Scanning probe lithography: state-of-the-art and future perspectives, Micromachines, vol. 13, p. 228.

[10] Wang J., Geng Y., Li Z., and Fan P., (2022), Study on the vertical ultrasonic vibration-assisted nanomachining process on single crystal silicon, Journal of Manufacturing Science and Engineering, vol. 72, p. 480-490.

[11] Fan P., Goel S., Luo X., and He Y., (2021), Origins of ductile plasticity in a polycrystalline gallium arsenide during scratching: MD simulation study, Applied Surface Science, vol. 552, p. 149489.

[12] Fan P., Goel S., Luo X., and Wang Y., (2021), Molecular dynamics simulation of AFM tip-based hot scratching of nanocrystalline GaAs, Materials Science in Semiconductor Processing, vol. 130, p. 105832.

[13] Fan P., Goel S., Luo X., Yan Y., and Wang Y., (2021), An atomistic investigation on the wear of diamond during atomic force microscope tip-based nanomachining of gallium arsenide, Computational Materials Science, vol. 187, p. 110115.

[14] Wang Y., Fan P., Luo X., and Yan Y., (2021), Fabrication of three-dimensional sin-shaped ripples using a multi-tip diamond tool based on the force modulation approach, Journal of Manufacturing Processes, vol.72, p. 262-273.

[15] Wang J., Yan Y., Li Z., and Fan P., (2021), Processing outcomes of atomic force microscope tip-based nanomilling with different trajectories on single crystal silicon, Precision Engineering, vol. 72, p. 480-490.

[16] Fan P., Ding F., Luo X., Yan Y., and Wang Y., (2020), A simulated investigation of ductile response of GaAs in single point diamond turning and experimental validation, Nanomanufacturing and Metrology, vol. 3, p. 239-250.

著作：

[1] Goel S., Fan P., (2025), Nanomechanics for Coatings and Engineering Surfaces, p. 393-437, Elsevier.