忆阻理论的丝状延伸及其在二氧化钛溶胶-凝胶忆阻器上的应用

2012 IEEE International Conference on Electronics Design, Systems and Applications (ICEDSA) Pub Date : 2012-05-22 DOI:10.1109/ICEDSA.2012.6507822

E. Gale, B. D. L. Costello, A. Adamatzky

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引用次数: 13

摘要

二氧化钛溶胶-凝胶忆阻器有两种不同的工作模式，被认为取决于是否存在大块忆阻，即贯穿整个体积的忆阻，或丝状忆阻，即由导电丝连接引起的忆阻。忆阻的memo -con理论是基于氧空位的漂移，而不是导电电子的漂移，以前已经被用来描述几个器件中的体忆阻。本文将mems -con理论扩展到低电阻二氧化钛细丝所引起的忆阻模型，并与溶胶-凝胶器件中丝状忆阻的实验结果进行了比较。

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Filamentary extension of the mem-con theory of memristance and its application to titanium dioxide sol-gel memristors

Titanium dioxide sol-gel memristors have two different modes of operation, believed to be dependent on whether there is bulk memristance, i.e. memristance throughout the whole volume, or a filamentary memristance, i.e. memristance caused by the connection of conducting filaments. The mem-con theory of memristance is based on the drift of oxygen vacancies rather than that of conducting electrons and has been previously used to describe bulk memristance in several devices. Here, the mem-con theory is extended to model memristance caused by small filaments of low resistance titanium dioxide and it compares favorably to experimental results for filamentary memristance in sol-gel devices.

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2012 IEEE International Conference on Electronics Design, Systems and Applications (ICEDSA)

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