Litcius/Paper detail

Wetting and Nonwetting near a Tricritical Point

Joseph O. Indekeu, Kenichiro Koga

2022Physical Review Letters13 citationsDOIOpen Access PDF

Abstract

The dihedral contact angles between interfaces in three-fluid-phase equilibria must be continuous functions of the bulk thermodynamic fields. This general argument, which we propose, predicts a nonwetting gap in the phase diagram, challenging the common belief in "critical-point wetting," even for short-range forces. A demonstration is provided by exact solution of a mean-field two-density functional theory for three-phase equilibria near a tricritical point (TCP). Complete wetting is found in a tiny vicinity of the TCP. Away from it, nonwetting prevails and no wetting transition takes place, not even when a critical endpoint is approached. Far from the TCP, reentrant wetting may occur, with a different wetting phase. These findings shed light on hitherto unexplained experiments on ternary H_{2}O-oil-nonionic amphiphile mixtures in which nonwetting continues to exist as one approaches either one of the two critical endpoints.

Topics & Concepts

WettingTricritical pointPhase diagramWetting transitionCritical point (mathematics)Phase (matter)ThermodynamicsTernary operationPhase transitionMaterials scienceTriple pointCondensed matter physicsPhysicsChemical physicsGeometryMathematicsComputer scienceQuantum mechanicsProgramming languagePhase Equilibria and Thermodynamicsnanoparticles nucleation surface interactionsMaterial Dynamics and Properties