原子层沉积Al掺杂HfO薄膜对铁电隧道结隧道电阻的影响

Journal of The Korean Institute of Electrical and Electronic Material Engineers Pub Date : 2020-01-01 DOI:10.4313/JKEM.2020.33.6.433

Sooyeon Bae, Yoon Sojung, Min Dae-hong, Yoon Sung-Min

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引用次数: 0

摘要

为了提高掺铝HfO2薄膜铁电隧道结(FTJ)器件的隧穿电阻(TER)比，在TiN底电极上制备了一层薄薄的绝缘层，并在O2环境下对TiN进行了不同温度的初步处理。在600°C和50 Torr条件下对插入绝缘层的组成和厚度进行了优化，结果表明，FTJ的TER比达到了430。在热处理过程中，在TiN表面形成氧化钛层，抑制了铁电薄膜中氧空位的产生。通过在O2环境下对hfo2基FTJ器件的TiN底电极进行适当热处理，发现所制备的FTJ器件呈现出两种不同的电阻状态和较高的隧穿电流。

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Variations in Tunnel Electroresistance for Ferroelectric Tunnel Junctions Using Atomic Layer Deposited Al doped HfO 2 Thin Films

To enhance the tunneling electroresistance (TER) ratio of a ferroelectric tunnel junction (FTJ) device using Al-doped HfO2 thin films, a thin insulating layer was prepared on a TiN bottom electrode, for which TiN was preliminarily treated at various temperatures in O2 ambient. The composition and thickness of the inserted insulating layer were optimized at 600°C and 50 Torr, and the FTJ showed a high TER ratio of 430. During the heat treatments, a titanium oxide layer formed on the surface of TiN, that suppressed oxygen vacancy generation in the ferroelectric thin film. It was found that the fabricated FTJ device exhibits two distinct resistance states with higher tunneling currents by properly heat-treating the TiN bottom electrode of the HfO2-based FTJ devices in O2 ambient.

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Journal of The Korean Institute of Electrical and Electronic Material Engineers

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