明方飞

中山大学教授，博士生导师

教育部国家重大人才工程（青年）入选者

2012年在香港中文大学获得博士学位，2012-2018年在香港中文大学和美国田纳西大学诺克斯维尔分校做博士后研究， 2018年9月加入中山大学电子与信息工程学院、广东省显示材料重点实验室。从事表面科学及微纳器件领域的研究。

招生方向：电子科学与技术学科，微电子与固体电子学，集成电路工程（专硕）。

欢迎物理、材料科学背景的本科生、硕士生、博士生、博士后加入！

教育经历

2007年8月– 2012年7月      香港中文大学        物理学博士

2003年9月– 2007年6月      西北大学               物理学学士

授课课程

《量子力学与固体物理》

《程序设计与实验》

《大学物理实验》

研究方向

未来的高密度集成电路、量子计算芯片以及生物结构制造等领域，都依赖于对单原子精度结构的精确控制。原子制造通过精准操控原子及纳米尺度结构，在最基本的层面上创造全新的物质、材料和器件。我的研究着眼于这些未来应用所需的关键技术，探索如何在单原子精度下实现材料的制备与操控，进而研究其中的微观结构和性质，具体包括：

1）半导体系统中的表面/界面物理：我们使用扫描隧道显微镜（STM）技术，研究半导体表面和界面的原子结构、电子态及其相变特性。

2）二维范德华半导体材料和器件的原子级制造：基于二维半导体材料以及其独特的单原子层精度特性，探索具有原子级精度的结构制造方法，开发高精度、高性能的新型器件。

3）机器学习与原子操纵：结合机器学习算法与STM的原子操纵技术，实现人工原子晶格结构的自动化制备，推动原子精度人工结构的规模化制造。

科研项目

1. [2018 - 2020] 中山大学，百人计划启动费，主持
2. [2019 - 2023] 广东省基础与应用基础研究基金，杰出青年项目，主持
3. [2022 - 2025] 国家自然科学基金，面上项目，主持
4. [2022 - 2022] 中山大学，青年教师培育项目，主持
5. [2023 - 2028] 国家重点研发计划，纳米前沿专项课题，主持
6. [2024 - 2026] 广州市2024年度基础与应用基础研究专题，科技菁英“领航”项目，主持
7. [2025 - 2028] 国家自然科学基金，面上项目，主持
    

代表性科研成果

1. Lemei Zhu, Chaoqi Dai, Sikai Chen, Airong Liu, Runze Zhan, Fangfei Ming* and Shaozhi Deng*, Tunable synaptic plasticity in MoS₂ neuromorphic transistors using Li+ incorporated chitosan electrolytes. Journal of Material Chemistry C, 13, 9374-9381 (2025).
2. Bingrui Li, Weiwei Huang , Chaoqi Dai , Boyuan Wen , Yan Shen , Fei Liu , Ningsheng Xu , Fangfei Ming*, Shaozhi Deng*. Fabricating model heterostructures of large-area monolayer or bilayer MoS₂ on an Au(111) surface under ultra-high vacuum. Results in Physics 67, 108042 (2024).
3. Xin Xu#, Xuechun Wang#, Shuming Yu#, Chenhui Wang, Guowei Liu, Hao Li, Jiangang Yang, Jing Li,Tao Sun, Xiao Hai, Lei Li, Xue Liu, Ying Zhang, Weifeng Zhang, Quan Zhang, Kedong Wang, Nan Xu, Yaping Ma^*, Fangfei Ming^*, Ping Cui^*, Jiong Lu, Zhenyu Zhang, and Xudong Xiao^*. Two-Dimensional Topological Platinum Telluride Superstructures with Periodic Tellurium Vacancies for Efficient and Robust Catalysis.ACS Nano 18, 32635−32649 (2024).
4. Sikai Chen#, Bingrui Li#, Chaoqi Dai, Lemei Zhu, Yan Shen, Fei Liu, Shaozhi Deng and Fangfei Ming*, Controlling Gold-Assisted Exfoliation of Large-Area MoS₂ Monolayers with External Pressure. Nanomaterials 14(17), 1418 (2024).
5. Fangfei Ming,* Paul C. Snijders, and Hanno H. Weitering* (2023). "Controlled Switching of Bistable Nanophase Domains on a Silicon Surface." ACS Nano, 17, 11914−11922 (2023)
6. F. Ming#, X. Wu#, C. Chen, K. D. Wang*, P. Mai, T. A. Maier, J. Strockoz, J. W. F. Venderbos, C. González, J. Ortega, S. Johnston* & H. H. Weitering*" Evidence for chiral superconductivity on a silicon surface " Nature Physics 19, 500–506 (2023) 
7. Fangfei Ming, Steve Johnston, Daniel Mulugeta, Tyler S. Smith, Paolo Vilmercati, Geunseop Lee, Thomas A. Maier, Paul C. Snijders, and Hanno H. Weitering, "Realization of a hole-doped Mott insulator on a triangular silicon lattice" Phys. Rev. Lett. 119, 266802 (2017).
8. Fangfei Ming, Tyler S. Smith, Steven Johnston, Paul C. Snijders, and Hanno H. Weitering, "Zero-bias anomaly in nano-scale holedoped Mott insulators on a triangular silicon surface" Phys. Rev. B. 97, 075403 (2018)
9. Seho Yi#, Fangfei Ming#, Ying-Tzu Huang, Tyler S. Smith, Xiyou Peng, Weisong Tu, Daniel Mulugeta, Renee D. Diehl, Paul C. Snijders, JunHyung Cho, Hanno H. Weitering. "Atomic and electronic structure of doped Si(111)(2Ö3×2Ö3)R30⁰-Sn interfaces " Phys. Rev. B. 97, 195402 (2018). 
10. T. S. Smith#, F. Ming#, D. G. Trabada, C. Gonzalez, D. Soler-Polo, F. Flores, J. Ortega, and H. H. Weitering"Coupled Sublattice Melting and Charge-Order Transition in Two Dimensions " Phys. Rev. Lett. 124, 097602 (2020)
11. Xuefeng Wu#, Fangfei Ming#*, Tyler S. Smith , Guowei Liu, Fei Ye, Kedong Wang*, Steven Johnston, and Hanno H. Weitering* " Superconductivity in a Hole-Doped Mott-Insulating Triangular Adatom Layer on a Silicon Surface " Phys. Rev. Lett. 125, 117001 (2020) 
12. Guowei Liu, Xiji Shao, Congrun Chen, Xixian Wang, Xuefeng Wu,* Fangfei Ming,* and Kedong Wang* "Controlled Implantation of Phosphorous Atoms into a Silicon Surface Lattice with a Scanning Tunneling Microscopy Tip" ACS Appl. Electron. Mater. 3, 3338−3345 (2021)
13. Fangfei Ming, Daniel Mulugeta, Weisong Tu, Tyler S. Smith, Paolo Vilmercati, Geunseop Lee, Ying-Tzu Huang, Renee D. Diehl, Paul C. Snijders and Hanno H. Weitering. "Hidden phase in a two-dimensional Sn layer stabilized by modulation hole doping. "Nature Communications 8, 14721 (2017)
14. Fangfei Ming, Guohua Zhong, Qin Liu, Kedong Wang, and Xudong Xiao. "Mapping potential energy landscape of a probing atom in a complex surface environment." Phys. Rev. B: Rapid Communications 92, 201414 (2015). 
15. Fangfei Ming, Guohua Zhong, Qin Liu, Kedong Wang, Zhenyu Zhang, and Xudong Xiao, Probing the generalized magicity of Ag nanoclusters constructed on Si(111) by atomic manipulation. Phys. Rev. B 88, 125432 (2013).
16. Hui Zhang#, Fangfei Ming#, Hyun-Jung Kim#, Hongbin Zhu, Qiang Zhang, Hanno H. Weitering, Xudong Xiao, Changgan Zeng, Jun-Hyung Cho, and Zhenyu Zhang. "Stabilization and Manipulation of Electronically Phase-Separated Ground States in Defective Indium Atom Wires on Silicon." Phys. Rev. Lett. 113, 196802 (2014). (# equal contribution)
17. Fangfei Ming, Kedong Wang, Shuan Pan, Jiepeng Liu, Xieqiu Zhang, Jinlong Yang and Xudong Xiao, “Assembling and Disassembling Ag Clusters on Si(111)-(7×7) by Vertical Atomic Manipulation”. ACS Nano 5, 7608 (2011).
18. Fangfei Ming, Kedong Wang, Xieqiu Zhang, Jiepeng Liu, Aidi Zhao, Jinlong Yang, Xudong Xiao, “Identifying the Numbers of Ag Atoms in Their Nanostructures Grown on a Si(111)-(7×7) Surface”. J. Phys. Chem. C 115, 3847 (2011).
19. Maosheng Zheng,Fangfei Ming, Xiuhong Zhu, Weibin Bi, Yiping Ma, “Effect of vibration on permeability of rock and stratum”. Acta Petrolei Sinica 29, 875 (2008).