Stateful characterization of resistive switching TiO2 with electron beam induced currents

Oxide-based memristors hold promise for artificial neuromorphic computing, yet the detail of the switching mechanism—filament formation—remains largely unknown. Hoskins et al. provide nanoscale imaging of this process using electron beam induced current microscopy and relate it to resistive states....

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Detalles Bibliográficos
Autores principales:	Brian D. Hoskins, Gina C. Adam, Evgheni Strelcov, Nikolai Zhitenev, Andrei Kolmakov, Dmitri B. Strukov, Jabez J. McClelland
Formato:	article
Lenguaje:	EN
Publicado:	Nature Portfolio 2017
Materias:	Science Q
Acceso en línea:	https://doaj.org/article/d0fb653e348142e1b8662ad03c0cfa6e
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Sumario:	Oxide-based memristors hold promise for artificial neuromorphic computing, yet the detail of the switching mechanism—filament formation—remains largely unknown. Hoskins et al. provide nanoscale imaging of this process using electron beam induced current microscopy and relate it to resistive states.

Stateful characterization of resistive switching TiO2 with electron beam induced currents

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