Phase behavior of model mixtures of colloidal disks and polymers

M A  Bates; D  Frenkel

Phase behavior of model mixtures of colloidal disks and polymers

Chemistry

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

Abstract

The phase behavior of model colloidal systems containing platelets and polymer is investigated using computer simulation and perturbation theory. For polymer coils with a diameter sigma (P) larger than 0.3 sigma (D), where sigma (D) is the diameter of the platelets, isotropic fluid-fluid coexistence is observed, in addition to the usual isotropic-nematic transition fur hard disk systems. For very small polymer coils (sigma (P)<0.1<sigma>(D)), a nematic-nematic demixing transition is observed, although this occurs at extremely high platelet density. The case of colloidal platelets and thin stiff rods is also examined. Demixing is observed in the isotropic phase for long rods and in the nematic phase for short rods, as for large and small polymer coils, respectively. However, the nematic-nematic demixing transition for platelet-rod mixtures occurs at a much lower platelet density than in the platelet-disk mixtures.

Original language	English
Pages (from-to)	5225-5229
Number of pages	5
Journal	Physical Review E
Volume	62
Issue number	4
Publication status	Published - Oct 2000

Keywords

NEMATIC-ISOTROPIC TRANSITION
THIN HARD PLATELETS
RODLIKE COLLOIDS
DISPERSIONS
SUSPENSIONS
PARTICLES
CRYSTALS
SYSTEMS

Cite this

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title = "Phase behavior of model mixtures of colloidal disks and polymers",

abstract = "The phase behavior of model colloidal systems containing platelets and polymer is investigated using computer simulation and perturbation theory. For polymer coils with a diameter sigma (P) larger than 0.3 sigma (D), where sigma (D) is the diameter of the platelets, isotropic fluid-fluid coexistence is observed, in addition to the usual isotropic-nematic transition fur hard disk systems. For very small polymer coils (sigma (P)<0.1(D)), a nematic-nematic demixing transition is observed, although this occurs at extremely high platelet density. The case of colloidal platelets and thin stiff rods is also examined. Demixing is observed in the isotropic phase for long rods and in the nematic phase for short rods, as for large and small polymer coils, respectively. However, the nematic-nematic demixing transition for platelet-rod mixtures occurs at a much lower platelet density than in the platelet-disk mixtures.",

keywords = "NEMATIC-ISOTROPIC TRANSITION, THIN HARD PLATELETS, RODLIKE COLLOIDS, DISPERSIONS, SUSPENSIONS, PARTICLES, CRYSTALS, SYSTEMS",

author = "Bates, {M A} and D Frenkel",

year = "2000",

month = oct,

language = "English",

volume = "62",

pages = "5225--5229",

journal = "Physical Review E",

issn = "1539-3755",

publisher = "American Physical Society",

number = "4",

}

TY - JOUR

T1 - Phase behavior of model mixtures of colloidal disks and polymers

AU - Bates, M A

AU - Frenkel, D

PY - 2000/10

Y1 - 2000/10

N2 - The phase behavior of model colloidal systems containing platelets and polymer is investigated using computer simulation and perturbation theory. For polymer coils with a diameter sigma (P) larger than 0.3 sigma (D), where sigma (D) is the diameter of the platelets, isotropic fluid-fluid coexistence is observed, in addition to the usual isotropic-nematic transition fur hard disk systems. For very small polymer coils (sigma (P)<0.1(D)), a nematic-nematic demixing transition is observed, although this occurs at extremely high platelet density. The case of colloidal platelets and thin stiff rods is also examined. Demixing is observed in the isotropic phase for long rods and in the nematic phase for short rods, as for large and small polymer coils, respectively. However, the nematic-nematic demixing transition for platelet-rod mixtures occurs at a much lower platelet density than in the platelet-disk mixtures.

AB - The phase behavior of model colloidal systems containing platelets and polymer is investigated using computer simulation and perturbation theory. For polymer coils with a diameter sigma (P) larger than 0.3 sigma (D), where sigma (D) is the diameter of the platelets, isotropic fluid-fluid coexistence is observed, in addition to the usual isotropic-nematic transition fur hard disk systems. For very small polymer coils (sigma (P)<0.1(D)), a nematic-nematic demixing transition is observed, although this occurs at extremely high platelet density. The case of colloidal platelets and thin stiff rods is also examined. Demixing is observed in the isotropic phase for long rods and in the nematic phase for short rods, as for large and small polymer coils, respectively. However, the nematic-nematic demixing transition for platelet-rod mixtures occurs at a much lower platelet density than in the platelet-disk mixtures.

KW - NEMATIC-ISOTROPIC TRANSITION

KW - THIN HARD PLATELETS

KW - RODLIKE COLLOIDS

KW - DISPERSIONS

KW - SUSPENSIONS

KW - PARTICLES

KW - CRYSTALS

KW - SYSTEMS

M3 - Article

SN - 1539-3755

VL - 62

SP - 5225

EP - 5229

JO - Physical Review E

JF - Physical Review E

IS - 4

ER -