2018/12-至今, 清华大学机械工程系，副教授

2017/02-2018/11, 清华大学机械工程系，助理教授

2016/01-2017/01, 以色列威兹曼科学院，访问学者

2014/01-2017/01, 清华大学机械工程系，博士后

本科生课程：

1. 《机械设计基础A(2)》

2. 《机械设计基础B(2)》

3. 《机械的奥秘》

研究生课程：

《摩擦学实验及分析方法》

主要从事机械表面润滑理论、纳米添加剂和超滑技术的研究。作为负责人先后主持了科技部重点研发计划课题、国家自然科学基金面上、青年基金等10余项科研项目，作为科研骨干参与了重点研发计划（973）、国防973和基金委重大仪器等多个项目。发表学术论文80余篇，其中以第一和通讯作者身份在Advanced Science、 Nano Energy等期刊上发表SCI论文57篇；申请国家发明专利15项。受邀在《Carbon》等国际期刊上撰写超滑综述8篇，参与编写超滑英文专著1部，研究成果被国际学者他引800余次，H因子23。担任《Friction》和《Tribology and Lubricants》的期刊编委，受邀在学术会议上做邀请报告6次。

近五年以第一/通讯作者发表的代表性论文

（1） Yi, S.;  Li, J.*;  Liu, Y.;  Ge, X.;  Zhang, J.; Luo, J., In-situ formation of tribofilm with Ti3C2Tx MXene nanoflakes triggers macroscale superlubricity. Tribology International 2021, 154, 106695.

（2） Yi, S.;  Chen, X.;  Li, J.*;  Liu, Y.;  Ding, S.; Luo, J., Macroscale superlubricity of Si-doped diamond-like carbon film enabled by graphene oxide as additives. Carbon 2021, 176, 358-366.

（3） Wang, K.;  Li, J.;  Li, J.*;  Wu, C.;  Yi, S.;  Liu, Y.; Luo, J., Hexadecane-containing sandwich structure based triboelectric nanogenerator with remarkable performance enhancement. Nano Energy 2021, 87, 106198.

（4） Liu, Y.;  Li, J.;  Li, J.*;  Yi, S.;  Ge, X.;  Zhang, X.; Luo, J., Shear-Induced Interfacial Structural Conversion Triggers Macroscale Superlubricity: From Black Phosphorus Nanoflakes to Phosphorus Oxide. Acs Applied Materials & Interfaces 2021, 13 (27), 31947-31956.

（5） Li, J.*#;  Cao, W.#;  Li, J.; Ma, M.*, Fluorination to enhance superlubricity performance between self-assembled monolayer and graphite in water. Journal of Colloid and Interface Science 2021, 596, 44-53.

（6） Feng, S.;  Liu, Y.*;  Li, J.*; Wen, S., Superlubricity Achieved with Zwitterionic Brushes in Diverse Conditions Induced by Shear Actions. Macromolecules 2021, 54 (12), 5719-5727.

（7） Dou, Z.;  Gao, T.;  Zhao, Z.*;  Li, J.*;  Yang, Q.; Yi, S., Effect of Immersion Duration on Shear Behavior of Granite Fractures. Rock Mechanics and Rock Engineering 2021, 54 (9), 4809-4823.

（8） Yi, S.;  Ge, X.; Li, J.*, Development and prospects of liquid superlubricity. Journal of Tsinghua University. Science and Technology 2020, 60 (8), 617-629.

（9） Wang, Z.;  Li, J.*;  Liu, Y.*; Luo, J., Synthesis and characterizations of zwitterionic copolymer hydrogels with excellent lubrication behavior. Tribology International 2020, 143, 106026.

（10） Wang, Z.;  Li, J.*;  Liu, Y.*; Luo, J., Macroscale superlubricity achieved between zwitterionic copolymer hydrogel and sapphire in water. Materials and Design 2020, 188, 108441.

（11） Wang, K.;  Liu, Y.;  Li, J.*; Li, J., Electricity generation by sliding an ionic solution droplet on a self-assembled reduced graphene oxide film. Journal of Materials Chemistry A 2020, 8 (25), 12735-12743.

（12） Liu, Y.;  Li, J.*;  Yi, S.;  Ge, X.;  Chen, X.; Luo, J., Enhancement of friction performance of fluorinated graphene and molybdenum disulfide coating by microdimple arrays. Carbon 2020, 167, 122-131.

（13） Liu, Y.;  Li, J.*;  Ge, X.;  Yi, S.;  Wang, H.;  Liu, Y.; Luo, J., Macroscale Superlubricity Achieved on the Hydrophobic Graphene Coating with Glycerol. Acs Applied Materials & Interfaces 2020, 12 (16), 18859-18869.

（14） Liu, Y.;  Ge, X.; Li, J.*, Graphene lubrication. Applied Materials Today 2020, 20, 100662.

（15） Li, J.;  Li, J.*;  Jiang, L.; Luo, J., Fabrication of a graphene layer probe to measure force interactions in layered heterojunctions. Nanoscale 2020, 5435-5443.

（16） Li, J.;  Li, J.*;  Chen, X.;  Liu, Y.; Luo, J., Microscale superlubricity at multiple gold-graphite heterointerfaces under ambient conditions. Carbon 2020, 161, 827-833.

（17） Gao, T.;  Li, J.*;  Yi, S.; Luo, J., Potential-Dependent Friction on a Graphitic Surface in Ionic Solution. Journal of Physical Chemistry C 2020, 124 (43), 23745-23751.

（18） Feng, S.;  Liu, Y.*;  Li, J.*;  Wang, H.; Wen, S., Insight into the Lubrication Behavior of Phospholipids Pre-adsorbed on Silica Surfaces at Different Adsorption Temperatures. Langmuir : the ACS journal of surfaces and colloids 2020, 36 (45), 13477-13484.

（19） Dou, Z.;  Gao, T.;  Zhao, Z.*;  Li, J.*;  Yang, Q.; Shang, D., The role of water lubrication in critical state fault slip. Engineering Geology 2020, 271, 105606.

（20） Chen, X.; Li, J.*, Superlubricity of carbon nanostructures. Carbon 2020, 158, 1-23. (High cited paper)

（21） Wang, Z.;  Li, J.*;  Jiang, L.;  Xiao, S.;  Liu, Y.*; Luo, J., Zwitterionic Hydrogel Incorporated Graphene Oxide Nanosheets with Improved Strength and Lubricity. Langmuir : the ACS journal of surfaces and colloids 2019, 35 (35), 11452-11462.

（22） Wang, Z.;  Li, J.*;  Ge, X.;  Liu, Y.*;  Luo, J.;  Chetwynd, D. G.; Mao, K., Investigation of the lubrication properties and synergistic interaction of biocompatible liposome-polymer complexes applicable to artificial joints. Colloids and surfaces. B, Biointerfaces 2019, 178, 469-478.

（23） Liu, Y.;  Li, J.*;  Chen, X.; Luo, J., Fluorinated Graphene: A Promising Macroscale Solid Lubricant under Various Environments. Acs Applied Materials & Interfaces 2019, 11 (43), 40470-40480.

（24） Liu, Y.;  Chen, X.;  Li, J.*; Luo, J., Enhancement of friction performance enabled by a synergetic effect between graphene oxide and molybdenum disulfide. Carbon 2019, 154, 266-276.

（25） Li, J.*;  Li, J.;  Jiang, L.;  Chen, X.; Luo, J., Cationic Surfactant Micelles Lubricate Graphitic Surface in Water. Langmuir 2019, 35 (34), 11108-11113.

（26） Li, J.*;  Cao, W.;  Li, J.;  Ma, M.*; Luo, J., Molecular Origin of Superlubricity between Graphene and a Highly Hydrophobic Surface in Water. Journal of Physical Chemistry Letters 2019, 10 (11), 2978-2984.

（27） Ge, X.;  Li, J.*;  Zhang, C.;  Liu, Y.; Luo, J., Superlubricity and Antiwear Properties of In Situ-Formed Ionic Liquids at Ceramic Interfaces Induced by Tribochemical Reactions. Acs Applied Materials & Interfaces 2019, 11 (6), 6568-6574.

（28） Ge, X.;  Li, J.*;  Wang, H.;  Zhang, C.;  Liu, Y.; Luo, J., Macroscale superlubricity under extreme pressure enabled by the combination of graphene-oxide nanosheets with ionic liquid. Carbon 2019, 151, 76-83.

（29） Ge, X.;  Li, J.*; Luo, J., Macroscale Superlubricity Achieved With Various Liquid Molecules: A Review. Frontiers in Mechanical Engineering 2019, 5 (2).

（30） Ge, X.;  Halmans, T.;  Li, J.*; Luo, J.*, Molecular behaviors in thin film lubrication—Part three: Superlubricity attained by polar and nonpolar molecules. Friction 2019, 7 (6), 625-636.

（31） Duan, Y.;  Liu, Y.*;  Li, J.*;  Feng, S.; Wen, S., AFM Study on Superlubricity between Ti6Al4V/Polymer Surfaces Achieved with Liposomes. Biomacromolecules 2019, 20 (4), 1522-1529.

（32） Li, J.*; Luo, J., Normal and Frictional Force Hysteresis between Self-Assembled Fluorosurfactant Micelle Arrays at the Nanoscale. Advanced Materials Interfaces 2018, 5 (4), 1700802.

（33） Li, J.*;  Li, J.; Luo, J., Superlubricity of Graphite Sliding against Graphene Nanoflake under Ultrahigh Contact Pressure. Advanced Science 2018, 5 (11), 1800810.

（34） Li, J.*; Li, J., Superlubricity behavior of surfactant micelles at the nanoscale. Jurnal Tribologi 2018, 19, 39-56.

（35） Li, J.*;  Ge, X.; Luo, J., Random occurrence of macroscale superlubricity of graphite enabled by tribo-transfer of multilayer graphene nanoflakes. Carbon 2018, 138, 154-160.

（36） Li, J.*;  Gao, T.; Luo, J., Superlubricity of Graphite Induced by Multiple Transferred Graphene Nanoflakes. Advanced Science 2018, 5 (3), 1700616.

（37） Li, J.*;  Dou, Z.;  Liu, Y.;  Luo, J.; Xiao, J., Improvement of Load Bearing Capacity of Nanoscale Superlow Friction by Synthesized Fluorinated Surfactant Micelles. Acs Applied Nano Materials 2018, 1 (2), 953-959.

（38） Li, J.*;  Cao, W.;  Wang, Z.;  Ma, M.; Luo, J., Origin of hydration lubrication of zwitterions on graphene. Nanoscale 2018, 10 (35), 16887-16894.

（39） Ge, X.;  Li, J.*;  Zhang, C.;  Wang, Z.; Luo, J., Superlubricity of 1-Ethyl-3-methylimidazolium trifluoromethanesulfonate Ionic Liquid Induced by Tribochemical Reactions. Langmuir 2018, 34 (18), 5245-5252.

（40） Ge, X.;  Li, J.*;  Zhang, C.; Luo, J., Liquid Superlubricity of Polyethylene Glycol Aqueous Solution Achieved with Boric Acid Additive. Langmuir 2018, 34 (12), 3578-3587.

（41） Ge, X.;  Li, J.*;  Luo, R.;  Zhang, C.; Luo, J., Macroscale Superlubricity Enabled by the Synergy Effect of Graphene-Oxide Nanoflakes and Ethanediol. Acs Applied Materials & Interfaces 2018, 10 (47), 40863-40870.

（42） Gao, T.;  Li, J.*;  Liu, Y.; Luo, J.*, Self-Retraction of Surfactant Droplets on a Superhydrophilic Surface. Langmuir 2018, 34 (50), 15388-15395.

（43） Duan, Y.;  Liu, Y.*;  Li, J.*;  Wang, H.; Wen, S., Investigation on the Nanomechanics of Liposome Adsorption on Titanium Alloys: Temperature and Loading Effects. Polymers 2018, 10 (4), 383.

（44） Li, J.*; Luo, J., Nonlinear Frictional Energy Dissipation between Silica-Adsorbed Surfactant Micelles. Journal of Physical Chemistry Letters 2017, 8 (10), 2258-2262.

（45） Li, J.*; Luo, J., Superlow Friction of Graphite Induced by the Self-Assembly of Sodium Dodecyl Sulfate Molecular Layers. Langmuir 2017, 33 (44), 12596-12601.

（46） Li, J.*;  Zhang, C.;  Cheng, P.;  Chen, X.;  Wang, W.; Luo, J., AFM Studies on Liquid Superlubricity between Silica Surfaces Achieved with Surfactant Micelles. Langmuir 2016, 32 (22), 5593-5599.

专利:

(1)  李津津，高天阳，李鉴峰，雒建斌. 用于固定AFM探针的检测装置、铜片及检测方法，中国发明专利，授权号：CN108717130B.

(2)  李津津，李鉴峰，刘大猛. 用于原子力显微镜的二维材料探针及其制备方法和应用，中国发明专利，授权号：CN110749752B.

(3)  李津津，雒建斌，张晨辉，刘宇宏，刘鹏霄.  一种具有超低摩擦系数的药丸涂层及其制备方法，中国发明专利，授权号：CN102430124B.

(4)  李津津，张晨辉，张韶华，雒建斌.  一种测量超滑状态时接触区微观形貌及组分的装置，中国发明专利，授权号：CN102768208B.

(5)  张晨辉，孙亮，李津津.  微摩擦力测量装置, 2012.11，中国发明专利，授权号：CN102998254B.

2021年 清华大学学术新人奖

2021年 温诗铸枫叶奖

2018年 中国科协青年托举人才工程

2018年 自然科学基金委优秀结题项目

2016年 清华大学优秀博士后

2014年 上银优秀机械博士论文奖

2013年 清华大学学术新秀

2013年 清华大学研究生特等奖