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Numerical insights on ionic microgels: structure and swelling behaviour

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Abstract

Recent progress has been made in the numerical modelling of neutral microgel particles with a realistic, disordered structure. In this work we extend this approach to the case of co-polymerised microgels where a thermoresponsive polymer is mixed with acidic groups. We compare the cases where counterions directly interact with microgel charges or are modelled implicitly through a Debye–Hückel description. We do so by performing extensive numerical simulations of single microgels across the volume phase transition (VPT) varying the temperature and the fraction of charged monomers. We find that the presence of charges considerably alters the microgel structure, quantified by the monomer density profiles and by the form factors of the microgels, particularly close to the VPT. We observe significant deviations between the implicit and explicit models, with the latter comparing more favourably to available experiments. In particular, we observe a shift of the VPT temperature to larger values as the amount of charged monomers increases. We also find that below the VPT the microgel–counterion complex is almost neutral, while it develops a net charge above the VPT. Interestingly, under these conditions the collapsed microgel still retains a large amount of counterions inside its structure. Since these interesting features cannot be captured by the implicit model, our results show that it is crucial to explicitly include the counterions in order to realistically model ionic thermoresponsive microgels.

Graphical abstract: Numerical insights on ionic microgels: structure and swelling behaviour

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Publication details

The article was received on 22 Jun 2019, accepted on 03 Aug 2019 and first published on 07 Oct 2019


Article type: Paper
DOI: 10.1039/C9SM01253B
Soft Matter, 2019, Advance Article
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    Numerical insights on ionic microgels: structure and swelling behaviour

    G. Del Monte, A. Ninarello, F. Camerin, L. Rovigatti, N. Gnan and E. Zaccarelli, Soft Matter, 2019, Advance Article , DOI: 10.1039/C9SM01253B

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