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Wiley, Advanced Materials, 22(26), p. 3649-3654, 2014

DOI: 10.1002/adma.201400127

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Bipolar Electrochemical Mechanism for Mass Transfer in Nanoionic Resistive Memories

Journal article published in 2014 by Xuezeng Z. Tian, Shize Z. Yang ORCID, Min Zeng, Lifen F. Wang, Jiake K. Wei, Zhi Xu, Wenlong L. Wang, Xuedong D. Bai
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This paper is available in a repository.

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Abstract

Getting a grip on the switching mechanism in nanoionic resistive memories: the bipolar electrochemical mechanism for mass transfer of Ag in nanoscale SiO2 is disclosed. The in-situ atomic-level experiments provide detailed evidence of the mass-transfer process under external electric fields. The mass transfer of Ag directly leads to conductive filament formation and disruption, which is responsible for the switching mechanism in nanoionic resistive memories.