High-performance transistors for bioelectronics through tuning of channel thickness

Rivnay, Jonathan; Leleux, P.; Ferro, Marc; Sessolo, Michele; Williamson, Adam; Koutsouras, Dimitrios A.; Khodagholy, Dion; Ramuz, Marc; Strakosas, Xenofon; Owens, Róisı́n M.; Bénar, Christian; Badier, J.; Bernard, Christophe; Malliaras, George G.

doi:10.1126/sciadv.1400251

articleScience AdvancesMay 1, 2015GOLD OA

High-performance transistors for bioelectronics through tuning of channel thickness

JRJonathan Rivnay PLP. Leleux MFMarc Ferro MSMichele Sessolo AWAdam Williamson

Mines Saint-Étienne · Direction Générale de l'Armement · +2 more institutions

PubMed

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Abstract

Despite recent interest in organic electrochemical transistors (OECTs), sparked by their straightforward fabrication and high performance, the fundamental mechanism behind their operation remains largely unexplored. OECTs use an electrolyte in direct contact with a polymer channel as part of their device structure. Hence, they offer facile integration with biological milieux and are currently used as amplifying transducers for bioelectronics. Ion exchange between electrolyte and channel is believed to take place in OECTs, although the extent of this process and its impact on device characteristics are still unknown. We show that the uptake of ions from an electrolyte into a film of…

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Topics

Keywords

Bioelectronics
Transistor
Channel (broadcasting)
Optoelectronics
Materials science
Nanotechnology
Computer science
Electrical engineering

UN Sustainable Development Goals

Affordable and clean energy

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