Memristive response of a new class of hydrated vanadium oxide intercalation compounds

abstract

2017 Materials Research Society. The practical realization of energy-efficient computing vectors is imperative to address the break-down in the scaling of power consumption with transistor dimensions, which has led to substantial underutilized chip space. Memristive elements that encode information in multiple internal states and reflect the dynamical evolution of these states are a promising alternative. Herein we report the observation of pinched loop hysteretic type-II memristive behavior in single-crystalline nanowires of a versatile class of layered vanadium oxide bronzes with the composition -[M(H2O)4]0.25V2O5 (M = Co, Ni, Zn), the origin of which is thought to be the diffusion of protons in the interlayer regions.

authors

published proceedings

MRS COMMUNICATIONS

author list (cited authors)

Andrews, J. L., Singh, S., Kilcoyne, C., Shamberger, P. J., Sambandamurthy, G., & Banerjee, S.

citation count

4

complete list of authors

Andrews, Justin L||Singh, Sujay||Kilcoyne, Colin||Shamberger, Patrick J||Sambandamurthy, G||Banerjee, Sarbajit

publication date

September 2017

publisher

Springer Nature Publisher

published in

MRS Communications Journal

keywords

40 Engineering
4018 Nanotechnology
51 Physical Sciences

Digital Object Identifier (DOI)

10.1557/mrc.2017.64

start page

634

end page

641

volume

7

issue

3

URL

http://dx.doi.org/10.1557/mrc.2017.64

Memristive response of a new class of hydrated vanadium oxide intercalation compounds Academic Article

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abstract

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