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Ionic Polymer Metal Composites (IPMCs) are soft electroactive polymer materials that bend in response to the voltage
stimulus (1 - 4 V). They can be used as actuators or sensors. In this paper, we introduce two new highly-porous carbon
materials for assembling high specific area electrodes for IPMC actuators and compare their electromechanical
performance with recently reported IPMCs based on RuO2 electrodes. We synthesize ionic liquid (Emi-Tf) actuators
with either Carbide-Derived Carbon (CDC) (derived from TiC) or coconut shell based activated carbon electrodes. The
carbon electrodes are applied onto ionic liquid-swollen Nafion membranes using the direct assembly process. Our results
show that actuators assembled with CDC electrodes have the greatest peak-to-peak strain output, reaching up to 20.4 mε
(equivalent to >2%) at a 2 V actuation signal, exceeding that of the RuO2 electrodes by more than 100%. The electrodes
synthesized from TiC-derived carbon also revealed significantly higher maximum strain rate. The differences between
the materials are discussed in terms of molecular interactions and mechanisms upon actuation in the different electrodes.
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Viljar Palmre, Daniel Brandell, Uno Mäeorg, Janno Torop, Olga Volobujeva, Andres Punning, Urmas Johanson, Alvo Aabloo, "Ionic polymer metal composites with nanoporous carbon electrodes," Proc. SPIE 7642, Electroactive Polymer Actuators and Devices (EAPAD) 2010, 76421D (9 April 2010); https://doi.org/10.1117/12.847518