2024 MRS Fall Meeting & Exhibit
EN05.11.20

Advancing Multiscale Modeling Approaches to Examine the Physicochemical Characteristics of Organic Mixed Ionic and Electronic Conductors

When and Where

Dec 5, 2024
8:00pm - 10:00pm
Hynes, Level 1, Hall A

Presenter(s)

Co-Author(s)

Nolan Lok1,Joel Bombile1,Megan Brown1,Chad Risko1

The University of Kentucky1

Abstract

Nolan Lok1,Joel Bombile1,Megan Brown1,Chad Risko1

The University of Kentucky1
The continued advance of bioelectronic and electrochemical energy storage and conversion applications requires materials that efficiently transport both electrons and ions. Organic mixed ionic and electronic conductors (OMIEC) have emerged as a promising class of soft conductive materials for these applications. Developing a deep physicochemical understanding of OMEIC behavior is complicated by the intricate interplay of semiconductor morphology, which changes as a function of swelling by the electrolyte, electronic properties, and ion transport. Here we use density functional theory (DFT) calculations to investigate the conditions under which bipolarons form, as opposed to maintaining two (or more) isolated polarons, revealing the impact of counterion size and spacing along a polythiophene homopolymer chain on the preferred charge-carrier state. We also implement a molecular dynamics (MD) modeling framework for polymer-based OMIEC, highlighting a boost in performance. This work lays the foundation for future developments of multiscale OMEIC models.

Keywords

morphology | polymer

Symposium Organizers

Alexander Giovannitti, Chalmers University of Technology
Joakim Halldin Stenlid, KBR Inc., NASA Ames Research Center
Helena Lundberg, KTH Royal Institute of Technology
Germán Salazar Alvarez, Uppsala University

Session Chairs

Alexander Giovannitti
Joakim Halldin Stenlid
Helena Lundberg

In this Session