Enabling actuation and sensing in organs-on-chip using electroactive polymers

Enabling actuation and sensing in organs-on-chip using electroactive polymers

Motreuil-Ragot, P.A. (TU Delft Electronic Components, Technology and Materials)
Hunt, A. (TU Delft Mechatronic Systems Design)
Kasi, Danesh (Leiden University Medical Center)
Brajon, B. (TU Delft Electronic Components, Technology and Materials)
van den Maagdenberg, Arn M.J.M. (Leiden University Medical Center)
Orlova, Valeria (Leiden University Medical Center)
Mastrangeli, Massimo (TU Delft Electronic Components, Technology and Materials)
Sarro, Pasqualina M (TU Delft Electronic Components, Technology and Materials)

2019-12-10

•Actuation has been succesfully performed for 2h30 with no side effects nor
delimination of the human tissue
•0.1 % strain has been achieved during the actutaion mode, close to the
strain experienced in vivo by vSMCs
•0.72 V/mm sensitivity has been shown on the sensing mode
•Batch fabrication and downscaling will be targetted in the near future
•Actual sensing of the cells’ contraction will be reserved for further work

http://resolver.tudelft.nl/uuid:67fdb8ea-3aac-4f14-8f6f-92e912343608

International MicroNanoConference 2019, 2019-12-10 → 2019-12-11, Jaarbeurs Utrecht, Utrecht, Netherlands

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© 2019 P.A. Motreuil-Ragot, A. Hunt, Danesh Kasi, B. Brajon, Arn M.J.M. van den Maagdenberg, Valeria Orlova, Massimo Mastrangeli, Pasqualina M Sarro