Functionalized graphene-oxide nanosheets with amino groups facilitate macroscale superlubricity

Holmberg K, Erdemir A. Influence of tribology on global energy consumption, costs and emissions. Friction 5(3): 263–284 (2017)

Article  Google Scholar 

Luo J B, Zhou X. Superlubricitive engineering—Future industry nearly getting rid of wear and frictional energy consumption. Friction 8(4): 643–665 (2020)

Article  Google Scholar 

Liu Y F, Ge X Y, Li J J. Graphene lubrication. Appl Mater Today 20: 100662 (2020)

Article  Google Scholar 

Meng Y G, Xu J, Jin Z M, Prakash B, Hu Y Z. A review of recent advances in tribology. Friction 8(2): 221–300 (2020)

Article  Google Scholar 

Luo J B, Liu M, Ma L R. Origin of friction and the new frictionless technology—Superlubricity: Advancements and future outlook. Nano Energy 86: 106092 (2021)

Article  Google Scholar 

Erdemir A, Martin J. Superlubricity. New York (USA): Elsevier Academic Press, 2007.

Google Scholar 

Shi S, Guo D, Luo J B. Micro/atomic-scale vibration induced superlubricity. Friction 9(5): 1163–1174 (2021)

Article  Google Scholar 

Li H, Wang J H, Gao S, Chen Q, Peng L M, Liu K H, Wei X L. 2D materials: Superlubricity between MoS2 monolayers. Adv Mater 29(27): 1701474 (2017)

Article  Google Scholar 

Liu Y M, Wang K, Xu Q, Zhang J, Hu Y Z, Ma T B, Zheng Q S, Luo J B. Superlubricity between graphite layers in ultrahigh vacuum. ACS Appl Mater Interfaces 12(38): 43167–43172 (2020)

Article  Google Scholar 

Gongyang Y J, Ouyang W G, Qu C Y, Urbakh M, Quan B G, Ma M, Zheng Q S. Temperature and velocity dependent friction of a microscale graphite—DLC heterostructure. Friction 8(2): 462–470 (2020)

Article  Google Scholar 

Li J J, Gao T Y, Luo J B. Superlubricity of graphite induced by multiple transferred graphene nanoflakes. Adv Sci (Weinh) 5(3): 1700616 (2018)

Article  Google Scholar 

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

Article  Google Scholar 

Chen Z, Kim S H. Measuring nanoscale friction at graphene step edges. Friction 8(4): 802–811 (2020)

Article  Google Scholar 

Erdemir A, Eryilmaz O. Achieving superlubricity in DLC films by controlling bulk, surface, and tribochemistry. Friction 2(2): 140–155 (2014)

Article  Google Scholar 

Berman D, Deshmukh S A, Sankaranarayanan S K R S, Erdemir A, Sumant A V. Macroscale superlubricity enabled by graphene nanoscroll formation. Science 348(6239): 1118–1122 (2015)

Article  Google Scholar 

Zeng Q F, Dong G N, Martin J M. Green superlubricity of nitinol 60 alloy against steel in presence of castor oil. Sci Rep 6: 29992 (2016)

Article  Google Scholar 

Wang X D, Sato H, Adachi K. Low friction in self-mated silicon carbide tribosystem using nanodiamond as lubricating additive in water. Friction 9(3): 598–611 (2021)

Article  Google Scholar 

Lin B, Ding M, Sui T Y, Cui Y X, Yan S, Liu X B. Excellent water lubrication additives for silicon nitride to achieve superlubricity under extreme conditions. Langmuir 35(46): 14861–14869 (2019)

Article  Google Scholar 

Ge X Y, Li J J, Zhang C H, Liu Y H, Luo J B. Superlubricity and antiwear properties of in situ-formed ionic liquids at ceramic interfaces induced by tribochemical reactions. ACS Appl Mater Interfaces 11(6): 6568–6574 (2019)

Article  Google Scholar 

Han T Y, Zhang C H, Li J J, Yuan S H, Chen X C, Zhang J Y, Luo J B. Origins of superlubricity promoted by hydrated multivalent ions. J Phys Chem Lett 11(1): 184–190 (2020)

Article  Google Scholar 

Zhang C X, Liu Z F, Liu Y H, Cheng Q, Yang C B, Cai L G. Investigation of the mechanisms for stable superlubricity of poly(vinylphosphonic acid) (PVPA) coatings affected by lubricant. Friction 4(4): 303–312 (2016)

Article  Google Scholar 

Liu W R, Wang H D, Liu Y H, Zhang C X, Luo J B. Controllable superlubricity system of polyalkylene glycol aqueous solutions under various applied conditions. Macromol Mater Eng 305(7): 2000141 (2020)

Article  Google Scholar 

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

Article  Google Scholar 

Deng M M, Zhang C H, Li J J, Ma L R, Luo J B. Hydrodynamic effect on the superlubricity of phosphoric acid between ceramic and sapphire. Friction 2(2): 173–181 (2014)

Article  Google Scholar 

Xiao C, Li J J, Chen L, Zhang C H, Zhou N N, Qing T, Qian L M, Zhang J Y, Luo J B. Water-based superlubricity in vacuum. Friction 7(2): 192–198 (2019)

Article  Google Scholar 

Wang H D, Liu Y H. Superlubricity achieved with two-dimensional nano-additives to liquid lubricants. Friction 8(6): 1007–1024 (2020)

Article  Google Scholar 

Gan C L, Liang T, Li W, Fan X Q, Li X, Li D S, Zhu M H. Hydroxyl-terminated ionic liquids functionalized graphene oxide with good dispersion and lubrication function. Tribol Int 148: 106350 (2020)

Article  Google Scholar 

Gan C L, Liang T, Li X P, Li W, Li H, Fan X Q, Zhu M H. Ultra-dispersive monolayer graphene oxide as water-based lubricant additive: Preparation, characterization and lubricating mechanisms. Tribol Int 155: 106768 (2021)

Article  Google Scholar 

Gan C L, Liang T, Li W, Fan X Q, Zhu M H. Amine-terminated ionic liquid modified graphene oxide/copper nanocomposite toward efficient lubrication. Appl Surf Sci 491: 105–115 (2019)

Article  Google Scholar 

Li X P, Gan C L, Han Z Y, Yan H, Chen D L, Li W, Li H, Fan X Q, Li D S, Zhu M H. High dispersivity and excellent tribological performance of titanate coupling agent modified graphene oxide in hydraulic oil. Carbon 165: 238–250 (2020)

Article  Google Scholar 

Ge X Y, Li J J, Luo R, Zhang C H, Luo J B. Macroscale superlubricity enabled by the synergy effect of graphemeoxide nanoflakes and ethanediol. ACS Appl Mater Interfaces 10(47): 40863–40870 (2018)

Article  Google Scholar 

Yi S, Chen X C, Li J J, Liu Y F, Ding S L, Luo J B. Macroscale superlubricity of Si-doped diamond-like carbon film enabled by graphene oxide as additives. Carbon 176: 358–366 (2021)

Article  Google Scholar 

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

Article  Google Scholar 

Rajoba S J, Sartale S D, Jadhav L D. Investigating functional groups in GO and r-GO through spectroscopic tools and effect on optical properties. Optik 175: 312–318 (2018)

Article  Google Scholar 

Somiya S. Handbook of Advanced Ceramics: Materials, Applications, Processing, and Propertie, 2nd Edn. Waltham (USA): Elsevier Academic Press (2013).

Google Scholar 

Zhao F Y, Zhang L G, Li G T, Guo Y X, Qi H M, Zhang G. Significantly enhancing tribological performance of epoxy by filling with ionic liquid functionalized graphene oxide. Carbon 136: 309–319 (2018)

Article  Google Scholar 

Gao X, Chen L, Ji L, Liu X H, Li H X, Zhou H D, Chen J M. Humidity-sensitive macroscopic lubrication behavior of an as-sprayed graphene oxide coating. Carbon 140: 124–130 (2018)

Article  Google Scholar 

Arul R, Oosterbeek R N, Robertson J, Xu G Y, Jin J Y, Simpson M C. The mechanism of direct laser writing of graphene features into graphene oxide films involves photoreduction and thermally assisted structural rearrangement. Carbon 99: 423–431 (2016)

Article  Google Scholar 

Ederer J, Janoš P, Ecorchard P, Tolasz J, Štengl V, Beneš H, Perchacz M, Pop-Georgievski O. Determination of amino groups on functionalized graphene oxide for polyurethane nanomaterials: XPS quantitation vs. functional speciation. RSC Adv 7(21): 12464–12473 (2017)

Article  Google Scholar 

Min C Y, Liu D D, Qian J M, He Z B, Jia W, Song H J, Guo L. High mechanical and tribological performance polyimide nanocomposites using amine-functionalized graphene nanosheets. Tribol Int 131: 1–10 (2019)

Article  Google Scholar 

Wang W, He Y Y, Zhao J, Mao J Y, Hu Y T, Luo J B. Optimization of groove texture profile to improve hydrodynamic lubrication performance: Theory and experiments. Friction 8(1): 83–94 (2020)

Article  Google Scholar 

Chen Y, Li D X, Yang W Y, Xiao C G, Wei M L. Effects of different amine-functionalized graphene on the mechanical, thermal, and tribological properties of polyimide nanocomposites synthesized by in situ polymerization. Polymer 140: 56–72 (2018)

Article  Google Scholar 

Xu J G, Kato K, Hirayama T. The transition of wear mode during the running-in process of silicon nitride sliding in water. Wear 205(1–2): 55–63 (1997)

Article  Google Scholar 

Iatsunskyi I, Kempiński M, Jancelewicz M, Załęski K, Jurga S, Smyntyna V. Structural and XPS characterization of ALD Al2O3 coated porous silicon. Vacuum 113: 52–58 (2015)

Article  Google Scholar 

Han T Y, Zhang C H, Chen X C, Li J J, Wang W Q, Luo J B. Contribution of a tribo-induced silica layer to macroscale superlubricity of hydrated ions. J Phys Chem C 123(33): 20270–20277 (2019)

Article  Google Scholar 

Neklyudov V V, Agieienko V N, Ziganshin M A, Dimiev A M. On the solvation behavior of graphene oxide in ethylene glycol/water mixtures. ChemPhysChem 19(11): 1344–1348 (2018)

Article  Google Scholar 

Saravanan P, Selyanchyn R, Tanaka H, Darekar D, Staykov A, Fujikawa S, Lyth S M, Sugimura J. Macroscale superlubricity of multilayer polyethylenimine/graphene oxide coatings in different gas environments. ACS Appl Mater Interfaces 8(40): 27179–27187 (2016)

Article  Google Scholar 

留言 (0)

沒有登入
gif