| Graphene lubrication Y Liu, X Ge, J Li Applied materials today 20, 100662, 2020 | 230 | 2020 |
| Superlubricity behavior with phosphoric acid–water network induced by rubbing J Li, C Zhang, J Luo Langmuir 27 (15), 9413-9417, 2011 | 227 | 2011 |
| Superlubricity of carbon nanostructures X Chen, J Li Carbon 158, 1-23, 2020 | 222 | 2020 |
| Macroscale superlubricity enabled by the synergy effect of graphene-oxide nanoflakes and ethanediol X Ge, J Li, R Luo, C Zhang, J Luo ACS applied materials & interfaces 10 (47), 40863-40870, 2018 | 175 | 2018 |
| Superlubricity achieved with mixtures of acids and glycerol J Li, C Zhang, L Ma, Y Liu, J Luo Langmuir 29 (1), 271-275, 2013 | 174 | 2013 |
| Superlubricity of graphite induced by multiple transferred graphene nanoflakes J Li, T Gao, J Luo Advanced Science 5 (3), 1700616, 2018 | 148 | 2018 |
| Superlubricity achieved with mixtures of polyhydroxy alcohols and acids J Li, C Zhang, J Luo Langmuir 29 (17), 5239-5245, 2013 | 122 | 2013 |
| Macroscale superlubricity under extreme pressure enabled by the combination of graphene-oxide nanosheets with ionic liquid X Ge, J Li, H Wang, C Zhang, Y Liu, J Luo Carbon 151, 76-83, 2019 | 121 | 2019 |
| Superlubricity of graphite sliding against graphene nanoflake under ultrahigh contact pressure J Li, J Li, J Luo Advanced science 5 (11), 1800810, 2018 | 115 | 2018 |
| Tribochemistry and superlubricity induced by hydrogen ions J Li, C Zhang, L Sun, X Lu, J Luo Langmuir 28 (45), 15816-15823, 2012 | 105 | 2012 |
| Excellent lubricating behavior of Brasenia schreberi mucilage J Li, Y Liu, J Luo, P Liu, C Zhang Langmuir 28 (20), 7797-7802, 2012 | 105 | 2012 |
| In-situ formation of tribofilm with Ti3C2Tx MXene nanoflakes triggers macroscale superlubricity S Yi, J Li, Y Liu, X Ge, J Zhang, J Luo Tribology International 154, 106695, 2021 | 101 | 2021 |
| Superlubricity and antiwear properties of in situ-formed ionic liquids at ceramic interfaces induced by tribochemical reactions X Ge, J Li, C Zhang, Y Liu, J Luo ACS applied materials & interfaces 11 (6), 6568-6574, 2019 | 92 | 2019 |
| Enhancement of friction performance enabled by a synergetic effect between graphene oxide and molybdenum disulfide Y Liu, X Chen, J Li, J Luo Carbon 154, 266-276, 2019 | 84 | 2019 |
| Liquid superlubricity of polyethylene glycol aqueous solution achieved with boric acid additive X Ge, J Li, C Zhang, J Luo Langmuir 34 (12), 3578-3587, 2018 | 80 | 2018 |
| Macroscale superlubricity of Si-doped diamond-like carbon film enabled by graphene oxide as additives S Yi, X Chen, J Li, Y Liu, S Ding, J Luo Carbon 176, 358-366, 2021 | 78 | 2021 |
| Investigation of machining Ti-6Al-4V with graphene oxide nanofluids: Tool wear, cutting forces and cutting vibration S Yi, J Li, J Zhu, X Wang, J Mo, S Ding Journal of Manufacturing Processes 49, 35-49, 2020 | 78 | 2020 |
| Hydrodynamic effect on the superlubricity of phosphoric acid between ceramic and sapphire M Deng, C Zhang, J Li, L Ma, J Luo Friction 2, 173-181, 2014 | 78 | 2014 |
| Investigation of the difference in liquid superlubricity between water-and oil-based lubricants J Li, C Zhang, M Deng, J Luo RSC advances 5 (78), 63827-63833, 2015 | 77 | 2015 |
| Superlubricity of polyalkylene glycol aqueous solutions enabled by ultrathin layered double hydroxide nanosheets H Wang, Y Liu, W Liu, Y Liu, K Wang, J Li, T Ma, OL Eryilmaz, Y Shi, ... ACS applied materials & interfaces 11 (22), 20249-20256, 2019 | 76 | 2019 |