Issue 6, 2018
From the journal:

Soft Matter

Dissipative disassembly of colloidal microgel crystals driven by a coupled cyclic reaction network

Dennis Go,a   Dirk Rommel,a   Yi Liao, ORCID logo b   Tamás Haraszti, ORCID logo a   Joris Sprakel ORCID logo c  and  Alexander J. C. Kuehne ORCID logo *a  

* Corresponding authors

a DWI – Leibniz Institute for Interactive Materials, RWTH Aachen University, Forckenbeckstraße 50, Aachen, Germany
E-mail: kuehne@dwi.rwth-aachen.de

b Department of Chemistry, University of Central Florida, Orlando, Florida, USA

c Physical Chemistry and Soft Matter, Wageningen University & Research, The Netherlands

Abstract

A plethora of natural systems rely on the consumption of chemical fuel or input of external energy to control the assembly and disassembly of functional structures on demand. While dissipative assembly has been demonstrated, the control of structural breakdown using a dissipative cycle remains almost unexplored. Here, we propose and realize a dissipative disassembly process using two coupled cyclic reactions, in which protons mediate the interaction between the cycles. We show how an ordered colloidal crystal, can cyclically transform into a disordered state by addition of energy to a chemical cycle, reversibly activating a photoacid. This cycle is coupled to the colloidal assembly cycle via the exchange of protons, which in turn trigger charging of the particles. This system is an experimental realization of a cyclic reaction-assembly network and its principle can be extended to other types of structure formation.

Graphical abstract: Dissipative disassembly of colloidal microgel crystals driven by a coupled cyclic reaction network

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Article information

DOI
https://doi.org/10.1039/C7SM02061A
Article type
Paper
Submitted
18 Oct 2017
Accepted
22 Jan 2018
First published
22 Jan 2018

Soft Matter, 2018,14, 910-915

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Dissipative disassembly of colloidal microgel crystals driven by a coupled cyclic reaction network

D. Go, D. Rommel, Y. Liao, T. Haraszti, J. Sprakel and A. J. C. Kuehne, Soft Matter, 2018, 14, 910 DOI: 10.1039/C7SM02061A

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