Direct Observation of Localized Radial Oxygen Migration in Functioning
  Tantalum Oxide Memristors

Andrews; Chen; Demiryont; Dilks; Gao; Goldfarb; Hur; Jan; Kalantarian; Kamiya; Kamiya; Kilcoyne; Kim; Kim; Kim; Kim; Knop-Gericke; Kumar; Kumar; Maeda; Magyari-Köpe; Menzel; Miao; Noman; Pan; Park; Pierret; Qiu; Qiu; Ruckman; Strachan; Strachan; Strukov; Strukov; Strukov; Torrezan; Wedig; Wei; Yang; Yang; Yang; Yoon; Zhao

research

Direct Observation of Localized Radial Oxygen Migration in Functioning Tantalum Oxide Memristors

Authors: Andrews
Chen
Demiryont
Dilks
Gao
Goldfarb
Hur
Jan
Kalantarian
Kamiya
Kamiya
Kilcoyne
Kim
Kim
Kim
Kim
Knop-Gericke
Kumar
Kumar
Maeda
Magyari-Köpe
Menzel
Miao
Noman
Pan
Park
Pierret
Qiu
Qiu
Ruckman
Strachan
Strachan
Strukov
Strukov
Strukov
Torrezan
Wedig
Wei
Yang
Yang
Yang
Yoon
Zhao
Publication date: 4 February 2016
Publisher: 'Wiley'
Doi

Abstract

Oxygen migration in tantalum oxide, a promising next-generation storage material, is studied using in-operando x-ray absorption spectromicroscopy and is used to microphysically describe accelerated evolution of conduction channel and device failure. The resulting ring-like patterns of oxygen concentration are modeled using thermophoretic forces and Fick diffusion, establishing the critical role of temperature-activated oxygen migration that has been under question lately.Comment: 7 pages, Advanced Materials (2016); updated abstrac

Similar works

Full text

Available Versions

Sustaining member

eScholarship - University of California

oai:escholarship.org:ark:/1303...

Last time updated on 25/12/2021

Crossref

info:doi/10.1002%2Fadma.201670...

Last time updated on 18/01/2021

Crossref

info:doi/10.1002%2Fadma.201505...

Last time updated on 05/06/2019