Francis Quenneville scite author profile

Electrolyte-gated (EG) transistors, based on electrolyte gating media, are powerful device structures to modulate the charge carrier density of materials by orders of magnitude, at relatively low operating voltages (sub-2 V). Tungsten trioxide (WO 3 ) is a metal oxide semiconductor well investigated for applications in electrochromism, sensing, photocatalysis, and photoelectrochemistry. In this work, we report on EG transistors making use of mesoporous nanostructured WO 3 thin films easily permeated by the electrolyte as the transistor channel and bis(trifluoromethylsulfonyl)imide ([TFSI])-based ionic liquids as the gating media. The WO 3 EG transistors operate at ca. 1 V. Using a combination of cyclic voltammetry, X-ray diffraction, and transistor performance characterizations, complemented by spectroscopic (Raman and infrared) investigations, we correlate the metal oxidation state and the charge transport properties of the metal oxide, shedding light on the doping process in electrically biased WO 3 nanostructured thin films exposed to electrolytes.

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Electrolyte-gated polymer thin film transistors making use of ionic liquids and ionic liquid-solvent mixtures

Sayago

Meng

Quenneville

et al. 2015

Journal of Applied Physics

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Towards near-infrared photosensitization of tungsten trioxide nanostructured films by upconverting nanoparticles

et al. 2015

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Correction to “Electrolyte-Gated WO₃ Transistors: Electrochemistry, Structure, and Device Performance”

Meng¹,

Quenneville²,

Venne³

et al. 2015

J. Phys. Chem. C

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