孙军辉，副研究员，硕士生导师，于中国科学院大学/兰州化学物理研究所获得工学博士学位。主要通过理论计算与实验结合开展机械表界面摩擦磨损与力化学行为机理研究，目前以（共同）第一/通讯作者在J. Am. Chem. Soc., Nat. Commun., Adv. Funct. Mater., Nano Letters等SCI期刊发表学术论文30余篇，主持国家自然科学基金青年基金、面上项目、原创探索项目课题、国家重点实验开放基金、中国博士后基金，参与国家自然科学基金面上项目、重大项目、重点研发计划等，指导学生获得西南交通大学优秀学位论文荣誉。

前期研究基于界面电子演化行为，提出主导摩擦、磨损发生的共性机制，在电子层面更新了对固体摩擦的认识：

1. 固体摩擦的电子演化发生机制。建立了基于电子行为探究固体摩擦能量图像的研究方法，首次发现固体界面滑动过程的电子密度演化与其摩擦行为的普适关联，为摩擦的化学键形成/断裂模型提供了科学依据，在电子水平更新学术界对摩擦起源的认识；

2. 发现电子转移诱发力化学磨损的一般规律。建立了描述应力作用下原子级磨损过程的电子转移研究方法，指出了磨损的热力学、动力学物理量与电子转移的普适性线性关系，提出应力驱动的电子转移是诱发磨损的物理机制。

3. 提出压力诱导实现超滑策略。提出压力诱导摩擦塌缩这一背离阿芒顿定律的反直觉行为在临界状态能够实现理论“零”摩擦的超滑新方法，建立了压力诱导超滑的实验观测方法，拓展了原子力显微镜的潜在分析功能。

近五年代表性论文：

1. Junhui Sun; Xin Zhang; Shiyu Du*; Jibin Pu; Yang Wang; Yanping Yuan; Linmao Qian*; Joseph S. Francisco*; Charge Density Evolution Governing Interfacial Friction, Journal of the American Chemical Society, 2023, 145(9): 5536-5544.

2. Xin Zhang; Junhui Sun*; Shiyu Du; Hao Li; and Linmao Qian. Electronic Interpretation of Interlayer Energy Landscape in Layered Materials, Adv. Funct. Mater. 2023, 23014023, (Cover)   

3. Yangyang Lu, Chen Xiao, Yilong Jiang, Chuan Tang, Lei Chen, Junhui Sun*, Linmao Qian, Nanoscale Wear Triggered by Stress-Driven Electron Transfer,  Nano Letters, 2023, 23, 8842–8849. 

4. Junhui Sun*^,#, Yilong Jiang#, Shiyu Du*, Lei Chen, Joseph S. Francisco*, Shuxun Cui, Qing Huang, and Linmao Qian*; Charge Redistribution in Mechanochemical Reactions for Solid Interfaces, Nano Letters, 2024, 24, 6858-6864. 

5. Haoyang Su#, Honglin Zhang#, Junhui Sun#, Haojie Lang, Kun Zou, Yitian Peng*. Extensive, Reversible, and Controllable Reduction in Friction of Atomically Thin Two Dimensional Materials through High-Stress Pre-Rubbing, Nature Communications, 2024, accepted.

6. Junhui Sun; Ziwen Cheng; Qing Huang; Heming He; Joseph S. Francisco; Shiyu Du*; Universal Principle for Large-Scale Production of a High-Quality Two-Dimensional Monolayer via Positive Charge-Driven Exfoliation, The Journal of Physical Chemistry Letters, 2022, 13(28): 6597-6603. 

7. Junhui Sun; Keke Chang; Daohong Mei; Zhibin Lu*; Jibin Pu; Qunji Xue; Qing Huang; Liping Wang*; Shiyu Du; Mutual Identification between the Pressure-Induced Superlubricity and the Image Contrast Inversion of Carbon Nanostructures from AFM Technology, The Journal of Physical Chemistry Letters, 2019, 10: 1498-1504.

8. Junhui Sun; Yanning Zhang; Zhibin Lu*; Qunyang Li*; Qunji Xue; Shiyu Du; Jibin Pu; Liping Wang*; Superlubricity Enabled by Pressure-Induced Friction Collapse, The Journal of Physical Chemistry Letters, 2018, 9(10): 2554-2559.

9. Wenmeng Yan; Yilong Jiang; Lei Chen*; Junhui Sun*; Yang Wang; Linmao Qian. The role of oxygen in mechanochemical wear of graphene, Carbon, 2024, 223: 119011. 

10. Hao Li*, Cheng Cao, Yuting Li, Xiaoqiang Fan, Junhui Sun*, and Minhao Zhu, Friction heat-driven robust self-lubricity of n-alkanols/epoxy resin coatings enabled by solid-liquid phase transition, Materials Horizons, 2024, 11: 4942-4950.

团队名称：钱林茂教授课题组

团队介绍：本人科研工作隶属于钱林茂教授团队，热忱欢迎对机械表界面摩擦学与界面导热研究感兴趣，并胸怀学术理想的本硕博同学，将全力提供精心指导。