通过工程氧化物微观结构确定SiOx ReRAM的性能

2022 11th International Conference on Modern Circuits and Systems Technologies (MOCAST) Pub Date : 2022-06-08 DOI:10.1109/mocast54814.2022.9837783

A. Kenyon, A. Mehonic, W. H. Ng, Longfei Zhao, Horatio R. J. Cox, M. Buckwell, K. Patel, A. Knights, D. Mannion, A. Shluger

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引用次数: 0

摘要

基于氧化物的细丝电阻开关(ReRAM)器件受到器件间和循环之间的电气特性(电成型电压、设置和复位电压、电阻水平和循环耐久性)可变性的影响。这些主要是与开关氧化物的微观结构有关的材料问题。在这里，我们概述了通过工程界面和离子注入等方法在纳米尺度上控制氧化物微观结构来设计氧化硅ReRAM电性能的策略。我们演示了对开关电压、电铸电压和稳定的多电平电阻状态分布的控制。

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Defining the performance of SiOx ReRAM by engineering oxide microstructure

Filamentary resistance switching, or ReRAM, devices based on oxides suffer from device-do-device and cycle-to-cycle variability of electrical characteristics (electroforming voltages, set and reset voltages, resistance levels and cycling endurance). These are largely materials issues related to the microstructure of the switching oxide. Here we outline strategies to engineer the electrical performance of silicon oxide ReRAM by controlling the oxide microstructure at the nanometre scale through approaches including engineered interfaces and ion implantation. We demonstrate control over the distribution of switching voltages, electroforming voltages, and stable multilevel resistance states.

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2022 11th International Conference on Modern Circuits and Systems Technologies (MOCAST)

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