2022/01-至今，清华大学机械工程系，助理研究员

Department of Mechanical Engineering, Tsinghua University, Assistant Professor, 2022/01-Present

2020/07-2022/12，清华大学机械工程系，博士后

Department of Mechanical Engineering, Tsinghua University, Post-doctoral Researcher, 2020/07-2022/12

微纳摩擦能量耗散测量及微结构检测新技术的研发，近几年感兴趣的领域包括光诱导力显微镜测试方法、喷墨打印头设计与制造、水下无人装备集群优化控制算法和多智能体强化学习等。主要参与过的科研项目包括：

Research and development of new technologies for measuring the energy dissipation of micro-nano friction and detecting microstructures. In recent years, areas of interest include Photo-induced Force Microscopy, inkjet printing head design and manufacturing, underwater unmanned equipment cluster optimization control algorithms and multi-agent reinforcement learning. The main research projects include:

激光诱导二维纳米材料表界面力作用机理及缺陷检测技术研究，国家自然科学基金青年项目，30万元，项目负责人

Research on the mechanism of the interfacial force on the laser-induced surface of two-dimensional nanomaterials for defect detection technology, NSFC Youth Program.

高端数控机床领域关键核心技术画像研究，中国科学院咨询项目，30万元，项目负责人

Research on Key Core Technology Portrait in the Field of High-end CNC Machine Tools, Consulting project of CAS.

月壤多尺度力学特性与工程资源利用技术，国家自然科学基金专项项目，276万元，分课题负责人

Multiscale mechanical properties of lunar regolith and engineering resource utilization technology, NSFC Special project.

复合微纳粒子设计及金属超精射流抛光增效机制研究，国家自然科学基金面上项目，68万元，主要成员

Design of micro/nano composite particles and synergistic mechanism of ultra-precision jet polishing on metal materials, NSFC General Program.

超滑理论和技术，基础加强计划，主要成员

Superlubricity theory and technology, Basic Strengthening Plan.

高性能电磁极端服役，基础加强计划，4800万，主要成员

High performance electromagnetic extreme service, Basic Strengthening Plan.

High resolution in-situ real-time friction energy dissipation detection system, NSFC Major Scientific Instrument Development Program.

论文与专利：共发表论文11篇，其中SCI收录10篇；申请专利13，授权6项，实质审查7项，列表如下：

1. Xinfeng Tan, Dan Guo*, Jianbin Luo*. Dynamic friction energy dissipation and enhanced contrast in high frequency bimodal atomic force microscopy, Friction., 2021,10(5): 748-761.

2. Xinfeng Tan, Dan Guo*, Jianbin Luo*. Different directional energy dissipation of heterogeneous polymers in bimodal atomic force microscopy, RSC Advances. 2019, 9, 27464-27474.,

3. Xinfeng Tan, Shuai Shi, Dan Guo*, Jianbin Luo*. Dynamical characterization of micro cantilevers by different excitation methods in dynamic atomic force microscopy. Review of Scientific Instruments. 2018, 89, 115109.

4. 谭新峰, 雒建斌*. 润滑研究进展[J]. 中国机械工程. 2020, 31(2): 145-174,189. Xinfeng Tan, Jianbin Luo*. Research Advances of Lubrication, China Mechanical Engineering, 2020, 31(2): 145-174,189.

5. Xiao Ma, Xinfeng Tan*, Dan Guo*, Shizhu Wen. Active control of friction realized by vibrational excitation: Numerical simulation based on the Prandtl–Tomlinson model and molecular dynamics, Friction, 2023,11(7): 1225-1238.

6. Lina Zhang, Xinfeng Tan*, Jianguo Jiao, Dan Guo*, Jianbin Luo*. Comparative analysis of frictional behavior and mechanism of molybdenum ditelluride with different structures. Friction. 2023, 12(1), 110-119.

7. Lina Zhang, Xinfeng Tan*, Jianguo Jiao, Dan Guo*, Jianbin Luo*. Interlayer friction behavior of molybdenum ditelluride with different structures. Nano Research. 2023, 16(8), 11375-11382.

8. Lina Zhang, Weibin Chen, Xinfeng Tan*, Jianguo Jiao, Dan Guo*, Jianbin Luo*. Nonmonotonic effects of atomic vacancy defects on friction. ACS Applied Materials & Interfaces. 2023, 15(38), 45455-45464.

9. Hao Zhan, Xinfeng Tan, Guoxin Xie, Dan Guo*. Reduced Fracture Strength of 2D Materials Induced by Interlayer Friction, Small, 2021,17(13), 2005996.

10. Hao Zhan, Xinfeng Tan, Guoxin Xie, Dan Guo*. Load-dependent energy dissipation induced by the tip-membrane friction on suspended 2D materials, Phys. Chem. Chem. Phys., 2021,23(35), 19819-19826.

11. Hao Zhan, Xinfeng Tan, Xin Zhang, Guoxin Xie, Dan Guo*. Layer-dependent Fracture Strength of Few-layer WS2 Induced by Interlayer Sliding: A Molecular Dynamics Study, J. Phys. D: Appl. Phys., 2022,55(20), 205301.

专利 Panents

[1] 谭新峰, 郭丹,师帅, 江亮, 雒建斌. 微悬臂梁探针的设计方法. 专利号ZL201810044922.0;

[2] 马骁, 谭新峰, 郭丹, 雒建斌. 压紧机构、压电驱动电机以及原子力显微镜. 专利号ZL202010180316.9;

[3] 马骁, 谭新峰, 郭丹, 雒建斌. 压电式位移装置及原子力显微镜. 专利号ZL202010186992.7;

[4] 马骁, 谭新峰, 郭丹, 雒建斌. 真空原子力显微镜的耦合系统及真空原子力显微镜. 专利号ZL202010279061.1;

[5] 师帅, 郭丹, 谭新峰, 雒建斌. 表面力场分布的探测装置及探测系统.专利号ZL201721650990.9（已授权实用新型，发明专利进入实质审查）;

[6] 师帅, 郭丹, 谭新峰, 雒建斌. 压电陶瓷激励装置、原子力显微镜及表面力场探测装置.专利号ZL201721661592.7（已授权实用新型，发明专利进入实质审查）;

[7] 谭新峰, 熊俊杰, 郭丹, 雒建斌. 形貌测量方法及微纳结构测量系统. 申请号 CN 202310534550.0;

[8] 谭新峰, 郭丹, 雒建斌. 光学喷墨打印装置及其喷射方法. 申请号 CN 202310652802.X;

[9] 熊俊杰, 谭新峰, 郭丹, 雒建斌. 石英晶振传感器. 申请号CN 202310347525.1;

[10] 熊俊杰, 谭新峰, 郭丹, 雒建斌. 一种基于多模态振动检测的微结构形貌测量方法. 申请号CN 202310447015.1;

[11] 熊俊杰, 谭新峰, 郭丹, 雒建斌.真空扫描探针显微镜. 申请号CN 202310434932.6;

参与论著2部 Monograph

Superlubricity 2nd Edition, ELSEVIER, 20200922. Chapter 4 - Vibration-induced superlubricity

《物理摩擦学》第16章 准接触与非接触摩擦

Physical Tribology, Chapter 16 - Non-contact and quasi-contact friciton

国际会议报告2次 International conference