Superlubricity

I. Introduction
II. Theoretical aspects of superlubricity
III. Evidencing superlubricity at atomic-to-nanoscales (experiments and simulations)
IV. Superlubricty of lamellar solids (i.e., MeS2, graphite, coatings etc.) and other 2D materials
V. Superlubricity of carbon-based coatings (H-mediated superlubricity)
VI. Approaching superlubricity under liquid conditions and boundary lubrication
VII. Other systems where superlubricity has been observed or achieved

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• Engenharia mecânica e dos materiais
• Química física
• Engenharia mecânica
• Tribologia (fricção e lubrificação)
• Ciência dos materiais
• Modelagem computacional e simulação
• Física

2D heterostructure; 2D materials; 60NiTi alloy; Ab initio molecular dynamics; Acid-based lubricants; Active control; Amorphous carbon; Aqueous suspension; Atomic force microscopy; Atomistic friction model; Atomistics of friction; Biological mucus; Black phosphorus; Boundary lubrication; Carbon; Carbon nitride; Chaos; Coating; Computational chemistry; Confined interfaces; Damping; Degradation; Density functional theory; Diamond-like carbon; Diamond-like carbon films; Dislocations; Doping effect; Edges; Electrical potential; Electrochemistry; Electronic dissipation; Energy dissipation; Environmental effect; Frenkel-Kontorova model; Friction; Friction energy dissipation; Friction laws; Fullerene-like; Fundamental mechanisms; Glycerol; Graphene; Graphene oxide; Graphite-like; Green superlubricity; Heterojunction; Humidity effects; Hydration; Hydrogels; Inert gas; Interfacial nanostructure; Interfacial rheology; Interlayer sliding; Ionic liquids; Lamella elasticity; Large scale; Layered double hydroxide; Liquid superlubricity; Lubricant additive; Lubrication; MoDTC; MoS2; Molecular behavior; Molecular dynamics; Molecules; Molecules orientation measurement; Molybdenum disulfides; Multicontact model; Nano manipulation; Nanodiamond; Nanotribology; Noble metals; Nonaqueous liquid; Nonlinear dynamics; Onion-like; Oxygen concentration; Phase transformation; Phononic dissipation; Phospholipids; Polishing; Polyhydroxyl group lubricants; Polymer brushes; QM/MM; Quantum chemistry; Relative humidity; Relaxation; Robust superlubricity; Run in; Self-organization; Shear localization; Solid lubricants; Solid superlubricity; Structural superlubricity; Structure; Superlow friction; Superlubricity; Surface chemistry; Surface passivation; Surfactant; Surfactant micelles; Ta-C