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Poster De Conférence Année : 2021

Strain dynamics under DC voltage of PEDOT:PSS-based microactuators

Lauréline Seurre
  • Fonction : Auteur
Sofiane Ghenna
Héléne Arena
Caroline Soyer
Eric Cattan

Résumé

Conducting polymer actuators exhibit large strain in response to an external stimulation, thus representing promise materials for MEMS. Presented as a trilayer structure composed of an ion reservoir membrane sandwiched between two electronically conducting polymers (ECP) as electrodes, the actuator exhibits bending deformation as a result of ions movements between the two electrodes during their redox process. We recently reported on the development of microactuators based on PEDOT:PSS, a commercially available ECP. Although microactuators are very often characterized by applying an AC voltage, many applications require subjecting the actuators to a DC voltage for several seconds or minutes. Some of these applications are the closing of a micro-gripper and the actuation of a cochlear implant during a surgery. With the aim of developing a micro-gripper, the dynamics strain of PEDOT:PSS-based trilayer micro-actuators have been studied by applying DC voltages in order to reach the maximum strain and force. The application of a DC voltage for an extended time shows that the actuator does not go back to its initial position after switching off the power supply. This study reveals the appearance of a memory effect, which is directly related to the intrinsic operation of the ECP-based actuator. These results allow a better understanding of the actuation process and are needful for the modelling and future control of integrated ECP actuators in microsystems devices.
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Dates et versions

hal-03765895 , version 1 (31-08-2022)

Identifiants

  • HAL Id : hal-03765895 , version 1

Citer

Lauréline Seurre, Sofiane Ghenna, Héléne Arena, Caroline Soyer, Sébastien Grondel, et al.. Strain dynamics under DC voltage of PEDOT:PSS-based microactuators. EuroEAP 2021 International conference on Electromechanically Active Polymer (EAP) transducers & artificial muscles, Jun 2021, ONLINE, Sweden. ⟨hal-03765895⟩
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