Critical Casimir Forces and Colloidal Phase Transitions in a Near-Critical Solvent: A Simple Model Reveals a Rich Phase Diagram

John R. Edison; Nikos Tasios; Simone Belli; Robert Evans; Rene van Roij; Marjolein Dijkstra

doi:10.1103/PhysRevLett.114.038301

Critical Casimir Forces and Colloidal Phase Transitions in a Near-Critical Solvent: A Simple Model Reveals a Rich Phase Diagram

John R. Edison^*, Nikos Tasios, Simone Belli, Robert Evans, Rene van Roij, Marjolein Dijkstra

^*Corresponding author for this work

Utrecht University

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

From experimental studies, it is well known that colloidal particles suspended in a near-critical binary solvent exhibit interesting aggregation phenomena, often associated with colloidal phase transitions and assumed to be driven by long-ranged solvent-mediated (SM) interactions (critical Casimir forces), set by the (diverging) correlation length of the solvent. We present the first simulation and theoretical study of an explicit model of a ternary mixture that mimics this situation. Both the effective SM pair interactions and the full ternary phase diagram are determined for Brownian disks suspended in an explicit two-dimensional supercritical binary liquid mixture. Gas-liquid and fluid-solid transitions are observed in a region that extends well away from criticality of the solvent reservoir. We discuss to what extent an effective pair-potential description can account for the phase behavior we observe. Our study provides a fresh perspective on how proximity to the critical point of the solvent reservoir might influence colloidal self-assembly.

Original language	English
Article number	038301
Number of pages	5
Journal	Physical Review Letters
Volume	114
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevLett.114.038301
Publication status	Published - 21 Jan 2015

Funding

We thank N. Wilding, D. Ashton, and A. Maciolek for stimulating discussions. J. R. E. and M. D. acknowledge financial support from a Nederlandse Organisatie voor Wetenschappelijk Onderzoek (NWO) VICI grant. N. T. and M. D. acknowledge financial support from an NWO-ECHO grant. J. R. E., N. T., and M. D acknowledge a NWO-EW grant for computing time in the Dutch supercomputer Cartesius. R. E. acknowledges financial support from the Leverhulme Trust.

Keywords

SOLVATION FORCE
CRITICAL-POINT
FLUIDS
ADSORPTION
PARTICLES
BEHAVIOR
MIXTURE
SPHERES

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10.1103/PhysRevLett.114.038301

PhysRevLett.114Final published version, 1.09 MBLicence: Taverne

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title = "Critical Casimir Forces and Colloidal Phase Transitions in a Near-Critical Solvent: A Simple Model Reveals a Rich Phase Diagram",

abstract = "From experimental studies, it is well known that colloidal particles suspended in a near-critical binary solvent exhibit interesting aggregation phenomena, often associated with colloidal phase transitions and assumed to be driven by long-ranged solvent-mediated (SM) interactions (critical Casimir forces), set by the (diverging) correlation length of the solvent. We present the first simulation and theoretical study of an explicit model of a ternary mixture that mimics this situation. Both the effective SM pair interactions and the full ternary phase diagram are determined for Brownian disks suspended in an explicit two-dimensional supercritical binary liquid mixture. Gas-liquid and fluid-solid transitions are observed in a region that extends well away from criticality of the solvent reservoir. We discuss to what extent an effective pair-potential description can account for the phase behavior we observe. Our study provides a fresh perspective on how proximity to the critical point of the solvent reservoir might influence colloidal self-assembly.",

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author = "Edison, {John R.} and Nikos Tasios and Simone Belli and Robert Evans and {van Roij}, Rene and Marjolein Dijkstra",

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AU - Edison, John R.

AU - Tasios, Nikos

AU - Belli, Simone

AU - Evans, Robert

AU - van Roij, Rene

AU - Dijkstra, Marjolein

PY - 2015/1/21

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N2 - From experimental studies, it is well known that colloidal particles suspended in a near-critical binary solvent exhibit interesting aggregation phenomena, often associated with colloidal phase transitions and assumed to be driven by long-ranged solvent-mediated (SM) interactions (critical Casimir forces), set by the (diverging) correlation length of the solvent. We present the first simulation and theoretical study of an explicit model of a ternary mixture that mimics this situation. Both the effective SM pair interactions and the full ternary phase diagram are determined for Brownian disks suspended in an explicit two-dimensional supercritical binary liquid mixture. Gas-liquid and fluid-solid transitions are observed in a region that extends well away from criticality of the solvent reservoir. We discuss to what extent an effective pair-potential description can account for the phase behavior we observe. Our study provides a fresh perspective on how proximity to the critical point of the solvent reservoir might influence colloidal self-assembly.

AB - From experimental studies, it is well known that colloidal particles suspended in a near-critical binary solvent exhibit interesting aggregation phenomena, often associated with colloidal phase transitions and assumed to be driven by long-ranged solvent-mediated (SM) interactions (critical Casimir forces), set by the (diverging) correlation length of the solvent. We present the first simulation and theoretical study of an explicit model of a ternary mixture that mimics this situation. Both the effective SM pair interactions and the full ternary phase diagram are determined for Brownian disks suspended in an explicit two-dimensional supercritical binary liquid mixture. Gas-liquid and fluid-solid transitions are observed in a region that extends well away from criticality of the solvent reservoir. We discuss to what extent an effective pair-potential description can account for the phase behavior we observe. Our study provides a fresh perspective on how proximity to the critical point of the solvent reservoir might influence colloidal self-assembly.

KW - SOLVATION FORCE

KW - CRITICAL-POINT

KW - FLUIDS

KW - ADSORPTION

KW - PARTICLES

KW - BEHAVIOR

KW - MIXTURE

KW - SPHERES

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M3 - Article

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IS - 3

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ER -

Critical Casimir Forces and Colloidal Phase Transitions in a Near-Critical Solvent: A Simple Model Reveals a Rich Phase Diagram

Abstract

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Keywords

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