Thermodynamic Signatures of Structural Transitions and Dissociation of Charged Colloidal Clusters: A Parallel Tempering Monte Carlo Study.

Bernal spiral colloids long-range repulsion short-range attraction thermodynamic properties

Journal

Molecules (Basel, Switzerland)

ISSN: 1420-3049

Titre abrégé: Molecules

Pays: Switzerland

ID NLM: 100964009

Informations de publication

Date de publication:
16 Apr 2022

Historique:

received: 03 03 2022

revised: 30 03 2022

accepted: 14 04 2022

entrez: 23 4 2022

pubmed: 24 4 2022

medline: 24 4 2022

Statut: epublish

Résumé

Computational simulation of colloidal systems make use of empirical interaction potentials that are founded in well-established theory. In this work, we have performed parallel tempering Monte Carlo (PTMC) simulations to calculate heat capacity and to assess structural transitions, which may occur in charged colloidal clusters whose effective interactions are described by a sum of pair potentials with attractive short-range and repulsive long-range components. Previous studies on these systems have shown that the global minimum structure varies from spherical-type shapes for small-size clusters to Bernal spiral and "beaded-necklace" shapes at intermediate and larger sizes, respectively. In order to study both structural transitions and dissociation, we have organized the structures appearing in the PTMC calculations by three sets according to their energy: (i) low-energy structures, including the global minimum; (ii) intermediate-energy "beaded-necklace" motifs; (iii) high-energy linear and branched structures that characterize the dissociative clusters. We observe that, depending on the cluster, either peaks or shoulders on the heat-capacity curve constitute thermodynamics signatures of dissociation and structural transitions. The dissociation occurs at T=0.20 for all studied clusters and it is characterized by the appearance of a significant number of linear structures, while the structural transitions corresponding to unrolling the Bernal spiral are quite dependent on the size of the colloidal system.

Identifiants

DOI: 10.3390/molecules27082581 PMID: 35458778 PMC: PMC9032479

pubmed: 35458778

pii: molecules27082581

doi: 10.3390/molecules27082581

pmc: PMC9032479

pii:

doi:

Types de publication

Journal Article

Langues

eng

Sous-ensembles de citation

Subventions

Organisme : Fundação para a Ciência e Tecnologia

ID : UIDB/00313/2020

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