Fateh Ullah, M. Tarkhan, Zina Fredj, Yi Su, Tianjun Wang, Mohamad Sawan
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引用次数: 0
摘要
研究人员利用原子层沉积技术沉积了厚度为 37 纳米的基于二氧化钛(TiOx)的开关层,制作了一种非对称忆阻器。器件结构表征采用了 X 射线光电子能谱、高分辨率透射电子显微镜和能量色散 X 射线光谱。通过忆阻器的电流-电压特性,观察到了单极电阻开关行为(在正电压和负电压下)。该器件的形成电压(从顶部铂电极到接地金电极)明显较小,仅为 0.46 V,而接近 0.25 V(从金电极获得正偏压并将铂电极保持接地)。经过 2000 次开关周期的保持和耐久性鉴定,结果令人满意,没有出现降解现象。
A stable undoped low-voltage memristor cell based on Titania (TiOx)
An asymmetric memristive device fabricated with a titania (TiOx)-based switching layer deposited through atomic layer deposition with a thickness of ∼37 nm was investigated. X-ray photoelectron spectroscopy and high-resolution transmission electron microscopy coupled with energy-dispersive x-ray spectroscopy were employed for device structural characterization. A unipolar resistive switching behavior (both at positive and negative voltages) was observed through the memristor’s current–voltage characteristics. A remarkably smaller forming voltage (from the top Pt electrode to the grounded Au electrode) of 0.46 V was achieved, while it approached (positive bias from the Au electrode and holding Pt electrode as grounded) 0.25 V, which is a much smaller forming voltage than has ever been reported for titanium-based oxides without doping. The retention and endurance characterization over 2000 switching cycles were satisfactory without degradation.
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