Switchable self-assembled capillary structures

[en] Capillarity driven self-assembly is a way to create spontaneous structures along liquid interfaces in between bottom-up and top-down fabrication methods. Based on multipolar capillary interactions between elementary floating object, simple to complex structures can been achieved by designing objects with specific 3D shapes. We show herein that a switchable self-assembled structure can be obtained with a shape memory polymer. At a defined temperature of the liquid, the 3D shape of each elementary floating object changes, modifying the capillary interactions thus forcing the stable structure to disassemble and to form a new arrangement. Based on simulations and experiments, we study how this cooperative behavior induces metastable complex configurations.

Research center :

CESAM - Complex and Entangled Systems from Atoms to Materials - ULiège
Center for Education and Research on Macromolecules (CERM)
Group for Research and Applications in Statistical Physics (GRASP)

Disciplines :

Physics
Materials science & engineering
Chemistry

Author, co-author :

Vandewalle, Nicolas ; University of Liège (ULiège), Complex and Entangled Systems from Atoms to Materials (CESAM) Research Unit, Group for Research and Applications in Statistical Physics (GRASP), Belgium

Poty, Martin ; University of Liège (ULiège), Complex and Entangled Systems from Atoms to Materials (CESAM) Research Unit, Group for Research and Applications in Statistical Physics (GRASP), Belgium

Vanesse, Nathan ; University of Liège (ULiège), Complex and Entangled Systems from Atoms to Materials (CESAM) Research Unit, Group for Research and Applications in Statistical Physics (GRASP), Belgium

Caprasse, Jérémie ; University of Liège (ULiège), Complex and Entangled Systems from Atoms to Materials (CESAM) Research Unit, Center for Education and Research on Macromolecules (CERM), Belgium

Defize, Thomas ; University of Liège (ULiège), Complex and Entangled Systems from Atoms to Materials (CESAM) Research Unit, Center for Education and Research on Macromolecules (CERM), Belgium

Jérôme, Christine ; University of Liège (ULiège), Complex and Entangled Systems from Atoms to Materials (CESAM) Research Unit, Center for Education and Research on Macromolecules (CERM), Belgium

Language :

English

Title :

Switchable self-assembled capillary structures

Publication date :

07 December 2020

Journal title :

Soft Matter

ISSN :

1744-683X

eISSN :

1744-6848

Publisher :

Royal Society of Chemistry, United Kingdom

Volume :

Issue :

Pages :

10320-10325

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 03 December 2020

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Bibliography

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