射频溅射法制备氧掺杂ZrN基阻性开关存储器件的减小工作电流

Jinsu Jung, Dongjoo Bae, Sungho Kim, Hee-Dong Kim
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引用次数: 6

摘要

在这项工作中,我们报告了用溅射方法制备的具有铂(Pt)和硅化铂(PtSi)底电极(BE)的氧掺杂氮化锆(o掺杂ZrN)薄膜的电阻开关(RS)特性的可行性。与使用Pt BE掺杂o掺杂ZrN相比,当使用Pt/p-Si作为BE时,发泡电压略有提高,但工作电流降低了约两个数量级。特别是,掺o的ZrN存储单元的平均复位电流降低到50µA,可以延缓元件的劣化,降低功耗。因此,使用PtSi作为o掺杂ZrN薄膜的BE被认为是非常有效的,可以通过降低存储单元的工作电流来提高可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reduced Operation Current of Oxygen-Doped ZrN Based Resistive Switching Memory Devices Fabricated by the Radio Frequency Sputtering Method
In this work, we report the feasibility of resistive switching (RS) properties of oxygen-doped zirconium nitride (O-doped ZrN) films with platinum (Pt) and platinum silicide (PtSi) bottom electrode (BE), produced by a sputtering method. Compared to O-doped ZrN using Pt BE, when Pt/p-Si was used as BE, the foaming voltage slightly increased, but the operation current was reduced by about two orders. In particular, the average reset current of the O-doped ZrN memory cells was reduced to 50 µA, which can delay deterioration of the element, and reduces power consumption. Therefore, the use of PtSi as the BE of the O-doped ZrN films is considered highly effective in improving reliability through reduction of operating current of the memory cells.
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