Issue 4, 2024

Impact of doping on the mechanical properties of conjugated polymers

Abstract

Conjugated polymers exhibit a unique portfolio of electrical and electrochemical behavior, which – paired with the mechanical properties that are typical for macromolecules – make them intriguing candidates for a wide range of application areas from wearable electronics to bioelectronics. However, the degree of oxidation or reduction of the polymer can strongly impact the mechanical response and thus must be considered when designing flexible or stretchable devices. This tutorial review first explores how the chain architecture, processing as well as the resulting nano- and microstructure impact the rheological and mechanical properties. In addition, different methods for the mechanical characterization of thin films and bulk materials such as fibers are summarized. Then, the review discusses how chemical and electrochemical doping alter the mechanical properties in terms of stiffness and ductility. Finally, the mechanical response of (doped) conjugated polymers is discussed in the context of (1) organic photovoltaics, representing thin-film devices with a relatively low charge-carrier density, (2) organic thermoelectrics, where chemical doping is used to realize thin films or bulk materials with a high doping level, and (3) organic electrochemical transistors, where electrochemical doping allows high charge-carrier densities to be reached, albeit accompanied by significant swelling. In the future, chemical and electrochemical doping may not only allow modulation and optimization of the electrical and electrochemical behavior of conjugated polymers, but also facilitate the design of materials with a tunable mechanical response.

Graphical abstract: Impact of doping on the mechanical properties of conjugated polymers

Article information

Article type
Tutorial Review
Submitted
29 Sep 2023
First published
24 Jan 2024
This article is Open Access
Creative Commons BY license

Chem. Soc. Rev., 2024,53, 1702-1729

Impact of doping on the mechanical properties of conjugated polymers

S. H. K. Paleti, Y. Kim, J. Kimpel, M. Craighero, S. Haraguchi and C. Müller, Chem. Soc. Rev., 2024, 53, 1702 DOI: 10.1039/D3CS00833A

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