Electrochemically-Gated Field-Effect Transistor with Indium Tin Oxide Nanoparticles as Active Layer

Abstract: An electrochemically-gated junction field-effect transistor with metallic conducting indium tin oxide nanoparticle array as active layer is reported. Fabrication of a field-effect device with a degenerative semiconductor like indium tin oxide (carrier concentration 10 20 −10 21 cm −3 ) is possible by exploiting the high surface-to-volume ratio of nanoparticles and high surface charge density achievable by electrochemical gating. The on/off ratio obtained is 325 although the applied potential was restricted to … Show more

“…In other words, experiment correlates the reduction of the resonator resistance during electrochemical cycling with a modulation of the optical response. In support of our speculation, large potential-induced resistance changes have been observed in thin metal films, nanoporous metals and oxides [14,15,16,17,18].…”

On the mechanism of electrochemical modulation of plasmonic resonances

“…In other words, experiment correlates the reduction of the resonator resistance during electrochemical cycling with a modulation of the optical response. In support of our speculation, large potential-induced resistance changes have been observed in thin metal films, nanoporous metals and oxides [14,15,16,17,18].…”

On the mechanism of electrochemical modulation of plasmonic resonances

Metal Oxide Thin-Film Transistors from Nanoparticles and Solutions