Flexible and skin-conformable inkjet-printed multi-electrodes array for recording of neuromuscular activity - Archive ouverte HAL
Article Dans Une Revue Advanced Healthcare Materials Année : 2016

Flexible and skin-conformable inkjet-printed multi-electrodes array for recording of neuromuscular activity

Résumé

PEDOT: PSS) conductive-polymer multielectrode arrays (MEAs) are fabricated without etching or aggressive lift-off processes, only by additive solution processes. Inkjet printing technology has several advantages, such as a customized design and a rapid realization time, adaptability to different patients and to different applications. In particular, inkjet printing technology, as additive and "contactless" technology, can be easily inserted into various technological fabrication steps on different substrates at low cost. In vivo electrochemical impedance spectroscopy measurements show the time stability of such MEAs. An equivalent circuit model is established for such flexible cutaneous MEAs. It is shown that the charge transfer resistance remains the same, even two months after fabrication. Surface electromyography and electrocardiography measurements show that the PEDOT:PSS MEAs record electrophysiological activity signals that are comparable to those obtained with unitary Ag/AgCl commercial electrodes. Additionally, such MEAs offer parallel and simultaneous recordings on multiple locations at high surface density. It also proves its suitability to reconstruct an innervation zone map and opens new perspectives for a better control of amputee's myoelectric prostheses. The employment of additive technologies such as inkjet printing suggests that the integration of multifunctional sensors can improve the performances of ultraflexible brain-computer interfaces.

Dates et versions

hal-01457365 , version 1 (06-02-2017)

Identifiants

Citer

Timothée Roberts, Jozina B. de Graaf, Caroline Nicol, Michel Fiocchi, Sébastien Sanaur. Flexible and skin-conformable inkjet-printed multi-electrodes array for recording of neuromuscular activity. Advanced Healthcare Materials, 2016, 5 (12), pp.1462-1470. ⟨10.1002/adhm.201600108⟩. ⟨hal-01457365⟩
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