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Heterogeneous interfaces enable robust macroscale superlubricity of trihydric alcohols via H-bond networks and wall slip

Hang Li, Yixuan Zhang, Shanling Li, Junqin Shi, Hongxing Wu, Ahmad Jabbarzadeh, Jing Liu, Tengfei Cao, Xiaoli Fan, Feng Zhou

2025Carbon33 citationsDOI

Topics & Concepts

Materials scienceLubricationTribologySlip (aerodynamics)Microscale chemistryComposite materialShearing (physics)Nanoscopic scaleShear (geology)PassivationMolecular dynamicsElastomerCohesion (chemistry)ScalingBoundary lubricationLubricityWork (physics)NanotechnologyCompatibility (geochemistry)Contact mechanicsElectrochemistryMechanical engineeringCoefficient of frictionShear stressFriction coefficientSurface forces apparatusForce Microscopy Techniques and ApplicationsChemical and Physical Properties of MaterialsAdvanced Physical and Chemical Molecular Interactions
Heterogeneous interfaces enable robust macroscale superlubricity of trihydric alcohols via H-bond networks and wall slip | Litcius