Novel network morphologies and compositionally robust 3-colored perforated lamellar phase in A(BC)2 mikto-arm star copolymer melts

Jacob Judas Kain Kirkensgaard

doi:10.1039/c0sm00358a

Novel network morphologies and compositionally robust 3-colored perforated lamellar phase in A(BC)₂ mikto-arm star copolymer melts

15 Citations (Scopus)

Abstract

Dissipative particle dynamics simulations are used to investigate the self-assembly of A(BC)₂ 3-mikto-arm star copolymers. The simulations predict a range of structures obtained by varying the volume fractions of the 3 components. Most notably the simulations show that a 3-colored perforated lamellar phase recently identified experimentally where the C and B components perforate lamellae of A is stable over a wide range of compositions. Further, the possibility of forming two other completely novel morphologies in this system is highlighted, one consisting of spheres of the A component and a 3-connected gyroid-like network of the C component embedded in a matrix of B and the other consisting of a single core-shell 3-connected gyroid-like network of A wrapped with B and embedded in a matrix of C. If realized experimentally, these networks potentially represent chiral structures built from achiral molecules as well as a single network analogue of an ordinary bicontinuous structure.

Original language	English
Journal	Soft Matter
Volume	6
Pages (from-to)	6102-6108
Number of pages	7
ISSN	1744-683X
DOIs	https://doi.org/10.1039/c0sm00358a
Publication status	Published - 21 Dec 2010

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title = "Novel network morphologies and compositionally robust 3-colored perforated lamellar phase in A(BC)2 mikto-arm star copolymer melts",

abstract = "Dissipative particle dynamics simulations are used to investigate the self-assembly of A(BC)2 3-mikto-arm star copolymers. The simulations predict a range of structures obtained by varying the volume fractions of the 3 components. Most notably the simulations show that a 3-colored perforated lamellar phase recently identified experimentally where the C and B components perforate lamellae of A is stable over a wide range of compositions. Further, the possibility of forming two other completely novel morphologies in this system is highlighted, one consisting of spheres of the A component and a 3-connected gyroid-like network of the C component embedded in a matrix of B and the other consisting of a single core-shell 3-connected gyroid-like network of A wrapped with B and embedded in a matrix of C. If realized experimentally, these networks potentially represent chiral structures built from achiral molecules as well as a single network analogue of an ordinary bicontinuous structure.",

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T1 - Novel network morphologies and compositionally robust 3-colored perforated lamellar phase in A(BC)2 mikto-arm star copolymer melts

AU - Kirkensgaard, Jacob Judas Kain

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N2 - Dissipative particle dynamics simulations are used to investigate the self-assembly of A(BC)2 3-mikto-arm star copolymers. The simulations predict a range of structures obtained by varying the volume fractions of the 3 components. Most notably the simulations show that a 3-colored perforated lamellar phase recently identified experimentally where the C and B components perforate lamellae of A is stable over a wide range of compositions. Further, the possibility of forming two other completely novel morphologies in this system is highlighted, one consisting of spheres of the A component and a 3-connected gyroid-like network of the C component embedded in a matrix of B and the other consisting of a single core-shell 3-connected gyroid-like network of A wrapped with B and embedded in a matrix of C. If realized experimentally, these networks potentially represent chiral structures built from achiral molecules as well as a single network analogue of an ordinary bicontinuous structure.

AB - Dissipative particle dynamics simulations are used to investigate the self-assembly of A(BC)2 3-mikto-arm star copolymers. The simulations predict a range of structures obtained by varying the volume fractions of the 3 components. Most notably the simulations show that a 3-colored perforated lamellar phase recently identified experimentally where the C and B components perforate lamellae of A is stable over a wide range of compositions. Further, the possibility of forming two other completely novel morphologies in this system is highlighted, one consisting of spheres of the A component and a 3-connected gyroid-like network of the C component embedded in a matrix of B and the other consisting of a single core-shell 3-connected gyroid-like network of A wrapped with B and embedded in a matrix of C. If realized experimentally, these networks potentially represent chiral structures built from achiral molecules as well as a single network analogue of an ordinary bicontinuous structure.

U2 - 10.1039/c0sm00358a

DO - 10.1039/c0sm00358a

M3 - Journal article

SN - 0959-9428

VL - 6

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JO - Journal of Materials Chemistry

JF - Journal of Materials Chemistry

ER -

Novel network morphologies and compositionally robust 3-colored perforated lamellar phase in A(BC)2 mikto-arm star copolymer melts

Abstract

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Novel network morphologies and compositionally robust 3-colored perforated lamellar phase in A(BC)₂ mikto-arm star copolymer melts