A comprehensive understanding of conductive mechanism of RRAM: from electron conduction to ionic dynamics

2020 International Conference on Electrical Engineering and Control Technologies (CEECT) Pub Date : 2020-12-01 DOI:10.1109/CEECT50755.2020.9298665

Zhiding Liang

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引用次数: 1

Abstract

Resistive random access memories (RRAMs) have been highlighted for being the potential candidate of the next generation nonvolatile memory devices in last decades, since Moore’s law is going to the end and the size of the traditional transistor almost reaches the physical limitation. Lots of previous studies on the conductive mechanism of RRAMs are intended to optimal the functionality of RRAMs. However, the classification of these mechanisms is very complex, which is not conducive to targeted function optimization. In this review, the electrons transition mode is described in detail, the classification of electrochemical metallization (ECM) is redefined, and the conductive mechanism of valence change memory (VCM) systems, which is often overlooked, is also discussed. At last, a prospective of RRAM relate to synapses then making wildly application is stated. In general, the review aims to understand conductive mechanisms of RRAMs systematically and provide a guidance for optimal the switching properties.

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RRAM导电机理的全面认识:从电子传导到离子动力学

随着摩尔定律的终结和传统晶体管的尺寸几乎达到物理极限，电阻式随机存取存储器(rram)作为下一代非易失性存储器件的潜在候选人在近几十年来备受关注。以往对随机存取存储器导电机理的大量研究都是为了优化随机存取存储器的功能。然而，这些机构的分类非常复杂，不利于有针对性的函数优化。本文详细介绍了电子跃迁模式，重新定义了电化学金属化(ECM)的分类，并讨论了常被忽视的价变记忆(VCM)体系的导电机理。最后，展望了RRAM在突触方面的广泛应用前景。总的来说，这篇综述旨在系统地了解rram的导电机制，并为优化开关性能提供指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 International Conference on Electrical Engineering and Control Technologies (CEECT)

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