Layer-by-layer self-assembled conductor network composites in ionic polymer metal composite actuators with high strain response

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Date

2009-07-01

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Publisher

AIP Publishing

Abstract

We investigate the electromechanical response of conductor network composite (CNC) fabricated by the layer-by-layer (LbL) self-assembly method. The process makes it possible for CNCs to be fabricated at submicron thickness with high precision and quality. This CNCs exhibits high strain similar to 6.8% under 4 V, whereas the RuO(2)/Nafion CNCs exhibit strain similar to 3.3%. The high strain and submicron thickness of the LbL layers in an ionic polymer metal composite (IPMC) yield large and fast actuation. The response time of a 26 mu m thick IPMC with 0.4 mu m thick LbL CNCs to step voltage of 4 V is 0.18 s.

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Keywords

Actuators, Electromechanical effects, Ionic conductivity, Materials, Preparation, Polymer films, Ruthenium compounds, Self-assembly, Sensors, Physics

Citation

Liu, Sheng; Montazami, Reza; Liu, Yang; et al., "Layer-by-layer self-assembled conductor network composites in ionic polymer metal composite actuators with high strain response," Appl. Phys. Lett. 95, 023505 (2009); http://dx.doi.org/10.1063/1.3179554