On the application potential of chemically tailored metal oxide and higher chalcogenide nanoparticles for nanoscale resistive switching devices

Anne Frommelius, Thorsten Ohlerth, M. Noyong, U. Simon
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Abstract

Resistive switching for non‐volatile data storage is a highly relevant field of research. Up to now, resistive switching devices are fabricated via semiconductor processing technologies. This poses the question, of whether integration of chemically tailored nanoparticles, either consisting of valence change or phase change materials, can be integrated in nanoelectrode configurations in order to explore their functionality for resistive switching applications. This Review will discuss the resistive switching properties of such nanoparticles by means of selected examples of both, nanoparticle assemblies as well as on the individual particle level. Although this field of research is rather unexplored, it will become evident that chemically tailored nanoparticles bear great potential for resistive switching applications.This article is protected by copyright. All rights reserved.
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化学定制金属氧化物和硫族化合物纳米颗粒在纳米级阻性开关器件中的应用潜力
用于非易失性数据存储的电阻开关是一个高度相关的研究领域。到目前为止,阻性开关器件都是通过半导体加工技术制造的。这就提出了一个问题,即是否可以将化学定制的纳米颗粒(由价变或相变材料组成)集成到纳米电极配置中,以探索其在电阻开关应用中的功能。本综述将通过选择纳米粒子组合和单个粒子水平的例子来讨论这种纳米粒子的电阻开关特性。虽然这一研究领域还未被探索,但很明显,化学定制的纳米颗粒在电阻开关应用方面具有巨大的潜力。这篇文章受版权保护。版权所有。
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