Litcius/Paper detail

A Multiscale Simulation Study of Influence of Morphology on Ion Transport in Block Copolymeric Ionic Liquids

Zidan Zhang, Jakub Krajniak, Venkat Ganesan

2021Macromolecules19 citationsDOIOpen Access PDF

Abstract

We present results of a multiscale simulation study involving coarse-graining and reverse-mapping steps probing at an atomistic resolution the influence of morphology on ion transport in block copolymer polymeric ionic liquids. We provide a detailed description of the multiscale simulation methodology and then describe the results in the context of four microphase-separated morphologies: two lamella systems, a cylinder, and a gyroid morphology. For the framework adopted in this study (in which the total number of ions was maintained fixed), morphology had little influence on the fraction of ions segregating to the interface and the coordination and hopping characteristics of such interfacially present ions. Such results manifested in anion mobilities being insensitive to the morphology once the dimensionality of the morphology was accounted for. Overall, our results are consistent with the hypothesis that the mobility of ions in such microphase-separated morphologies, after accounting for the dimensionality effects, can be roughly correlated to a linear superposition based on the fraction of bulk anions, which possess mobilities unperturbed from their values in the conducting homopolymers, and the interfacial anions, which exhibit much lower mobilities.

Topics & Concepts

IonMorphology (biology)Chemical physicsContext (archaeology)Materials scienceLamella (surface anatomy)Ionic bondingCopolymerChemistryPolymerComposite materialOrganic chemistryPaleontologyGeneticsBiologyAdvanced Battery Materials and TechnologiesIonic liquids properties and applicationsBlock Copolymer Self-Assembly