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Synthèse et propriétés de monocristaux, de poudres, films minces ou hétérostructures

Etudes à l'interface avec la matière biologique

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Papier de l'équipe SALD en collaboration avec l'Université de Waterloo

Publié le 6 mai 2019
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Communiqué du 6 mai 2019 au 9 juillet 2019

Le papier "Ultrathin TiOx Interface-Mediated ZnO-Nanowire Memristive Devices Emulating Synaptic Behaviors" a été publié dans ADvanced Electronic Materials

Ici  vous trouverez le papier de Viet Nguyen et David Muñoz-Rojas.
"One‐dimensional semiconductor nanowires have been widely used as important building blocks in a number of devices. However, the performance of these devices is seriously hindered by the surface states/defects on the nanowires, which is a great obstacle to the realization of controllable and predictable characteristics. The introduction of an ultrathin metal oxide layer between Au electrodes and a ZnO nanowire is used to eliminate the surface effects of the nanowires, leading to improved volatile threshold switching performance. Study of the conduction mechanism demonstrates that the TiOx interfacial layer functions as a barrier between the electrodes and the nanowire, wherein the oxygen defects provide localized trap sites for electron hopping in a low electric field as well as assisting electron tunneling in a high electric field. Several key synaptic functions, including excitatory current response, facilitation and depression, and short‐term plasticity, are realized with this modified nanowire device, which is promising for neuromorphic computing applications. Interface engineering between electrodes and semiconductor nanowires can help in the realization of high‐performance memristive devices, allowing new approaches to the assembly of neuromorphic systems with nanometer‐sized features. "


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mise à jour le 16 juin 2019

  • Tutelle CNRS
  • Tutelle Grenoble INP
Univ. Grenoble Alpes