Trilayer conducting polymer transduction: device physics, modeling, and simulation
Sébastien Grondel
(1, 2)
,
Sofiane Ghenna
(1, 2)
,
Caroline Soyer
(1, 2)
,
Eric Cattan
(1, 2)
,
John D.W. Madden
(3)
,
Ngoc Tan Nguyen
(3)
Sébastien Grondel
- Fonction : Auteur
- PersonId : 746766
- IdHAL : sebastien-grondel
- ORCID : 0000-0003-1542-9494
- IdRef : 143501569
Sofiane Ghenna
- Fonction : Auteur
- PersonId : 740495
- IdHAL : sofiane-ghenna
- ORCID : 0000-0002-8833-3840
- IdRef : 198040067
Caroline Soyer
- Fonction : Auteur
- PersonId : 748061
- IdHAL : caroline-soyer
Eric Cattan
- Fonction : Auteur
- PersonId : 746767
- IdHAL : eric-cattan
- ORCID : 0000-0002-6576-5800
- IdRef : 151097542
Ngoc Tan Nguyen
- Fonction : Auteur
- PersonId : 774883
- IdRef : 188114823
Résumé
Modelling trilayer conducting polymer is still challenging as it exhibits interrelated coupled multiscale and non-linear characteristics. Therefore, this work proposes to review the underlying electro-chemo-mechanical principles in ultrathin PEDOT trilayer ionic conducting polymers based upon internal ion charge transport, conduction phenomena, redox process and elastic deformation. Microscale governing equations are first analyzed and the choice of appropriate assumptions depending of the used material is discussed. Since exact analytical solutions can be so far given only for some limited conditions, numerical solutions are developed to solve the problem. Then simulations in both sensing and actuating are successfully compared with experiments.
Format du dépôt | Notice |
---|---|
Type de dépôt | Communication dans un congrès |
Résumé |
en
Modelling trilayer conducting polymer is still challenging as it exhibits interrelated coupled multiscale and non-linear characteristics. Therefore, this work proposes to review the underlying electro-chemo-mechanical principles in ultrathin PEDOT trilayer ionic conducting polymers based upon internal ion charge transport, conduction phenomena, redox process and elastic deformation. Microscale governing equations are first analyzed and the choice of appropriate assumptions depending of the used material is discussed. Since exact analytical solutions can be so far given only for some limited conditions, numerical solutions are developed to solve the problem. Then simulations in both sensing and actuating are successfully compared with experiments.
|
Titre |
en
Trilayer conducting polymer transduction: device physics, modeling, and simulation
|
Auteur(s) |
Sébastien Grondel
1, 2
, Sofiane Ghenna
1, 2
, Caroline Soyer
1, 2
, Eric Cattan
1, 2
, John D.W. Madden
3
, Ngoc Tan Nguyen
3
1
MAMINA - IEMN -
Matériaux et Acoustiques pour MIcro et NAno systèmes intégrés - IEMN
( 1067471 )
- Groupe MAMINA
Bâtiment Lottmann
- 59313 Valenciennes cedex
- France
2
IEMN -
Institut d’Électronique, de Microélectronique et de Nanotechnologie - UMR 8520
( 1066983 )
- [Univ. Lille, CNRS, Centrale Lille Institut, Junia, Univ. Polytechnique Hauts-de-France] ––
Laboratoire Central – Cité Scientifique – Avenue Poincaré – CS 60069 – 59652 VILLENEUVE D’ASCQ CEDEX
- France
3
UNBC -
University of Northern British Columbia [Prince George]
( 316431 )
- Prince George, BC, Canada V2N 4Z9
- Canada
|
Date début congrès |
2021-03-22
|
Date fin congrès |
2021-03-27
|
Ville |
Online Only
|
URL du congrès ou éditeur |
https://www.spiedigitallibrary.org/conference-proceedings-of-spie/11587/2582732/Trilayer-conducting-polymer-transduction-device-physics-modeling-and-simulation/10.1117/12.2582732.short
|
Actes |
Oui
|
Date de publication |
2021-03
|
Titre de la collection |
Proceedings of the SPIE - International Society for Optical Engineering
|
Volume |
11587
|
Titre du congrès |
SPIE Smart Structures + Nondestructive Evaluation, Conference 11587 - Electroactive Polymer Actuators and Devices XXIII, EAPAD 2021
|
Pays |
États-Unis
|
Langue du document |
Anglais
|
Vulgarisation |
Non
|
Comité de lecture |
Oui
|
Invité |
Non
|
Audience |
Internationale
|
Page/Identifiant |
31
|
Référence interne |
|
Collaboration/Projet |
|
Projet(s) ANR |
|
Projet(s) Européen(s) |
|
Financement |
|
Domaine(s) |
|
Éditeur commercial |
|
DOI | 10.1117/12.2582732 |
UT key WOS | 000695318700012 |
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