Pulsed Power Applications with Conductive (Carbon-Loaded) Composite Polymer Electrodes—Requirements and Characterization
Polymers and Rubbers
Published Online: 15 JUN 2010
Copyright © 2000 John Wiley & Sons, Ltd. All rights reserved.
Encyclopedia of Analytical Chemistry
How to Cite
Roodenburg, B., de Haan, S., Malchev, P., Leitão, T. and Mendes, E. 2010. Pulsed Power Applications with Conductive (Carbon-Loaded) Composite Polymer Electrodes—Requirements and Characterization. Encyclopedia of Analytical Chemistry. .
- Published Online: 15 JUN 2010
Pulsed power (PP) is a technology where energy is released to a load in a short time. Every device using this technology needs electrodes to transfer the electric energy to the load. Recent developments in composite conductive polymers make them suitable as electrodes for new or existing PP applications, where normally metals were used. Composite polymers, consisting of conductive filler and a nonconductive matrix, can solve several specific problems in common and to be developed (PP) applications, due to their ability to conduct current or to store electrical charge, in combination with their elasticity. In general, polymer electrodes behave differently on pulsed stimuli compared to a static load and metal electrodes. An overview of many existing characterization methods and a newly developed technique suited for characterization of conductive polymers for PP applications in particular is described. For three different applications, artificial muscles, cell electroporation, and biofouling prevention, the requirements for the polymer electrodes and specific application-related issues are addressed with examples.
- pulsed power;
- conductive polymer;
- artificial muscles;
- cell electroporation;