Internal Cell Resistance as the Origin of Abrupt Reset Behavior in HfO2-Based Devices Determined from Current Compliance Series

2016 IEEE 8th International Memory Workshop (IMW) Pub Date : 2016-05-15 DOI:10.1109/IMW.2016.7495280

A. Hardtdegen, Camilla La Torre, Hehe Zhang, C. Funck, S. Menzel, R. Waser, S. Hoffmann‐Eifert

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引用次数: 14

Abstract

The resistive switching behavior in different HfO2/TiO2 nano crossbar structures of 100 x 100 nm2 size is analyzed by means of DC voltage sweeps. The devices fabricated from 3 nm thin ALD layers of HfO2 and TiO2 sandwiched between Pt and Hf or Ti electrodes show VCM-type bipolar resistive switching after electroforming. For increased compliance current (cc) during set from 50 μA to 800 μA, the set current runs into self- limitation while the reset behavior changes from gradual to abrupt. A model is defined with an internal resistance being in series with the local resistive switch. A recursive algorithm is applied to the cc series for calculation of the series resistor and evaluation of the intrinsic switching characteristic of HfO2-based cells. The intrinsic LRS turns out to be current compliance controlled and to follow the universal switching rule. Supported by compact modelling, we show that an abrupt reset behavior might arise even for materials with a gradual intrinsic reset characteristic in consequence of an internal series resistor.

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电池内部电阻是基于hfo2的器件中突然复位行为的起源，由电流依从性系列确定

利用直流电压扫描分析了100 × 100 nm2尺寸的不同HfO2/TiO2纳米横条结构的电阻开关行为。在Pt和Hf或Ti电极之间夹入3nm的HfO2和TiO2薄ALD层，电铸后器件表现出vcm型双极电阻开关。在从50 μA到800 μA的整定过程中，随着顺应电流(cc)的增大，整定电流出现自限，复位行为由渐进式变为突发性。模型定义为内阻与局部电阻开关串联。将递归算法应用于cc串联电阻器的计算和hfo2基电池本征开关特性的评估。结果表明，本征LRS是电流顺应控制的，并遵循通用开关规则。在紧凑模型的支持下，我们表明，由于内部串联电阻的作用，即使对于具有逐渐固有复位特性的材料，也可能出现突然复位行为。

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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2016 IEEE 8th International Memory Workshop (IMW)

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