Reversible Electronic Solid–Gel Switching of a Conjugated Polymer

Johannes Gladisch; Eleni Stavrinidou; Sarbani Ghosh; Alexander Giovannitti; Maximilian Moser; Igor Zozoulenko; Iain McCulloch; Magnus Berggren

doi:10.1002/advs.201901144

Advanced Science (Jan 2020)

Reversible Electronic Solid–Gel Switching of a Conjugated Polymer

Johannes Gladisch,
Eleni Stavrinidou,
Sarbani Ghosh,
Alexander Giovannitti,
Maximilian Moser,
Igor Zozoulenko,
Iain McCulloch,
Magnus Berggren

Affiliations

Johannes Gladisch: Laboratory of Organic Electronics Department of Science and Technology Linköping University SE‐60174 Norrköping Sweden
Eleni Stavrinidou: Laboratory of Organic Electronics Department of Science and Technology Linköping University SE‐60174 Norrköping Sweden
Sarbani Ghosh: Laboratory of Organic Electronics Department of Science and Technology Linköping University SE‐60174 Norrköping Sweden
Alexander Giovannitti: Department of Chemistry and Centre for Plastic Electronics Imperial College London London SW7 2AZ UK
Maximilian Moser: Department of Chemistry and Centre for Plastic Electronics Imperial College London London SW7 2AZ UK
Igor Zozoulenko: Laboratory of Organic Electronics Department of Science and Technology Linköping University SE‐60174 Norrköping Sweden
Iain McCulloch: Department of Chemistry and Centre for Plastic Electronics Imperial College London London SW7 2AZ UK
Magnus Berggren: Laboratory of Organic Electronics Department of Science and Technology Linköping University SE‐60174 Norrköping Sweden

DOI: https://doi.org/10.1002/advs.201901144
Journal volume & issue: Vol. 7, no. 2
pp. n/a – n/a

Abstract

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Abstract Conjugated polymers exhibit electrically driven volume changes when included in electrochemical devices via the exchange of ions and solvent. So far, this volumetric change is limited to 40% and 100% for reversible and irreversible systems, respectively, thus restricting potential applications of this technology. A conjugated polymer that reversibly expands by about 300% upon addressing, relative to its previous contracted state, while the first irreversible actuation can achieve values ranging from 1000–10 000%, depending on the voltage applied is reported. From experimental and theoretical studies, it is found that this large and reversible volumetric switching is due to reorganization of the polymer during swelling as it transforms between a solid‐state phase and a gel, while maintaining percolation for conductivity. The polymer is utilized as an electroactive cladding to reduce the void sizes of a porous carbon filter electrode by 85%.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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