Issue 19, 2022
From the journal:

Soft Matter

Nanoparticle anisotropy induces sphere-to-cylinder phase transition in block copolymer melts

Javier Diaz, ORCID logo a   Marco Pinna, ORCID logo *b   Andrei Zvelindovsky ORCID logo b  and  Ignacio Pagonabarraga ORCID logo acd  

* Corresponding authors

a CECAM, Centre Européen de Calcul Atomique et Moléculaire, EPFL, École Polytechnique Fédérale de Lausanne, Batochime - Avenue Forel 2, 1015 Lausanne, Switzerland

b Centre for Computational Physics, University of Lincoln, Brayford Pool, Lincoln, UK
E-mail: mpinna@lincoln.ac.uk

c Departament de Física de la Matèria Condensada, Universitat de Barcelona, Martí i Franquès 1, 08028 Barcelona, Spain

d Universitat de Barcelona Institute of Complex Systems (UBICS), Universitat de Barcelona, 08028 Barcelona, Spain

Abstract

Block copolymer nanocomposites including anisotropic nanoparticles have been previously found to co-assemble into complex structures with nanoparticle alignment. Anisotropic nanoparticles with large aspect ratios are found to modify the morphology of block copolymers at modest concentrations, inducing a sphere-to-cylinder phase transition by breaking the local symmetry in the vicinity of a solid particle. This transition takes place over a wide range of NP lengths comparable with the BCP spacing. Controlling the orientation of uniaxial nanoparticles provides additional control over the global orientation of the block copolymer, as previously reported by experiments.

Graphical abstract: Nanoparticle anisotropy induces sphere-to-cylinder phase transition in block copolymer melts

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Article information

DOI
https://doi.org/10.1039/D2SM00214K
Article type
Communication
Submitted
11 Feb 2022
Accepted
01 Apr 2022
First published
06 May 2022
This article is Open Access
Creative Commons BY-NC license

Soft Matter, 2022,18, 3638-3643

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Nanoparticle anisotropy induces sphere-to-cylinder phase transition in block copolymer melts

J. Diaz, M. Pinna, A. Zvelindovsky and I. Pagonabarraga, Soft Matter, 2022, 18, 3638 DOI: 10.1039/D2SM00214K

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