2016
DOI: 10.1088/0953-8984/28/13/133001
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Non-monotonic effect of confinement on the glass transition

Abstract: The relaxation dynamics of glass forming liquids and their structure are influenced in the vicinity of confining walls. This effect has mostly been observed to be a monotonic function of the slit width. Recently, a qualitatively new behaviour has been uncovered by Mittal and coworkers, who reported that the single particle dynamics in a hard-sphere fluid confined in a planar slit varies in a non-monotonic way as the slit width is decreased from five to roughly two particle diametres (Mittal et al 2008 Phys. Re… Show more

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Cited by 20 publications
(19 citation statements)
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References 162 publications
(347 reference statements)
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“…This multiple reentrance is attributed to a complex competition between the layering induced by the walls and the local caging. This scenario has been corroborated by event-driven molecular dynamics simulations for slightly polydisperse hard-sphere systems [115,117] upon measuring the self-diffusion coefficients parallel to the walls.…”
Section: Confined Liquidsmentioning
confidence: 68%
See 1 more Smart Citation
“…This multiple reentrance is attributed to a complex competition between the layering induced by the walls and the local caging. This scenario has been corroborated by event-driven molecular dynamics simulations for slightly polydisperse hard-sphere systems [115,117] upon measuring the self-diffusion coefficients parallel to the walls.…”
Section: Confined Liquidsmentioning
confidence: 68%
“…Here we do not repeat the equations of motion but refer to a recent review [117], rather we focus on the nonequilibrium state diagram.…”
Section: Mode-coupling Theory For Confined Liquidsmentioning
confidence: 99%
“…In recent years, those fundamental microscopic theories that can describe dynamic responses in inhomogeneous fluids have begun to emerge . In particular, the generalized Langevin and model‐coupling theories have recently provided some important insights into these issues .…”
Section: Introductionmentioning
confidence: 99%
“…There, the simplest geometry to investigate the effects of strong confinement is a slit where fluid particles are restricted to a narrow space between two smooth parallel plates, but also tubes or spherical confinements have been realized experimentally [24][25][26]. Computer simulations and experiments for the planar confinement have revealed an exotic equilibrium phase behavior due to commensurable stacking [27][28][29][30][31][32][33][34] as well as the hexatic phases in the limit of quasi-2D confinement [35,36]. Confinement induced order-disorder phase transitions for certain nonpolar liquids have also been reported in several experiments [37], but the interpretation has been challenged in favor of a glass transition [38][39][40].…”
mentioning
confidence: 99%
“…For instance, the role of local order has been elucidated within a remarkable empirical scaling of the diffusivity or structural relaxation times with the excess entropy [43][44][45][46]. Complementarily, a microscopic theory for the dynamics in confinement is the mode-coupling theory that predicts a multiple-reentrant in a glassy phase as the plate separation is varied [33,47,48] From a more fundamental point of view one would like to know how the dimensional crossover from a 3D bulk liquid to a (quasi-)2D system occurs. For the thermodynamic and structural properties it has been shown recently that a small parameter emerges such that the convergence to a 2D system including leading corrections can be proven [49].…”
mentioning
confidence: 99%