| Mechanical properties of nanoparticles: basics and applications D Guo, G Xie, J Luo Journal of physics D: applied physics 47 (1), 013001, 2013 | 883 | 2013 |
| Double-walled carbon nanotube solar cells J Wei, Y Jia, Q Shu, Z Gu, K Wang, D Zhuang, G Zhang, Z Wang, J Luo, ... Nano letters 7 (8), 2317-2321, 2007 | 420 | 2007 |
| Marangoni flow in an evaporating water droplet X Xu, J Luo Applied Physics Letters 91 (12), 2007 | 373 | 2007 |
| Thin film lubrication. Part I. Study on the transition between EHL and thin film lubrication using a relative optical interference intensity technique J Luo, S Wen, P Huang Wear 194 (1-2), 107-115, 1996 | 358 | 1996 |
| Robust microscale superlubricity under high contact pressure enabled by graphene-coated microsphere SW Liu, HP Wang, Q Xu, TB Ma, G Yu, C Zhang, D Geng, Z Yu, S Zhang, ... Nature communications 8 (1), 14029, 2017 | 353 | 2017 |
| Nanotube-silicon heterojunction solar cells Y Jia, J Wei, K Wang, A Cao, Q Shu, X Gui, Y Zhu, D Zhuang, G Zhang, ... Adv. Mater 20 (23), 4594, 2008 | 279 | 2008 |
| An investigation on the tribological properties of multilayer graphene and MoS2 nanosheets as additives used in hydraulic applications J Zhao, Y He, Y Wang, W Wang, L Yan, J Luo Tribology International 97, 14-20, 2016 | 237 | 2016 |
| Superlubricity behavior with phosphoric acid–water network induced by rubbing J Li, C Zhang, J Luo Langmuir 27 (15), 9413-9417, 2011 | 225 | 2011 |
| Evolution of tribo-induced interfacial nanostructures governing superlubricity in aC: H and aC: H: Si films X Chen, C Zhang, T Kato, X Yang, S Wu, R Wang, M Nosaka, J Luo Nature communications 8 (1), 1675, 2017 | 217 | 2017 |
| Friction-induced nano-structural evolution of graphene as a lubrication additive J Zhao, J Mao, Y Li, Y He, J Luo Applied Surface Science 434, 21-27, 2018 | 211 | 2018 |
| CMP of hard disk substrate using a colloidal SiO2 slurry: preliminary experimental investigation H Lei, J Luo Wear 257 (5-6), 461-470, 2004 | 200 | 2004 |
| Superlubricitive engineering—Future industry nearly getting rid of wear and frictional energy consumption J Luo, X Zhou Friction 8 (4), 643-665, 2020 | 194 | 2020 |
| Electrical bearing failures in electric vehicles F He, G Xie, J Luo Friction 8, 4-28, 2020 | 184 | 2020 |
| Ultrathin MoS2 Nanosheets with Superior Extreme Pressure Property as Boundary Lubricants Z Chen, X Liu, Y Liu, S Gunsel, J Luo Scientific reports 5 (1), 12869, 2015 | 184 | 2015 |
| Superlubricity achieved with mixtures of acids and glycerol J Li, C Zhang, L Ma, Y Liu, J Luo Langmuir 29 (1), 271-275, 2013 | 173 | 2013 |
| Superlubricity of a graphene/MoS 2 heterostructure: a combined experimental and DFT study L Wang, X Zhou, T Ma, D Liu, L Gao, X Li, J Zhang, Y Hu, H Wang, Y Dai, ... Nanoscale 9 (30), 10846-10853, 2017 | 172 | 2017 |
| Origin of friction and the new frictionless technology—Superlubricity: Advancements and future outlook J Luo, M Liu, L Ma Nano Energy 86, 106092, 2021 | 170 | 2021 |
| 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 | 170 | 2018 |
| Intelligent lubricating materials: A review H Gong, C Yu, L Zhang, G Xie, D Guo, J Luo Composites Part B: Engineering 202, 108450, 2020 | 167 | 2020 |
| Black phosphorus as a new lubricant W Wang, G Xie, J Luo Friction 6, 116-142, 2018 | 164 | 2018 |
