Resistive switching properties in polycrystalline LiNbO3 thin films

Gongying Chen, Chao Zeng, Ye Liao, W. Huang, Jianyuan Wang, Guangyang Lin, Cheng Li, Songyan Chen
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Abstract

LiNbO3 (LNO) is currently intensively studied as an important ferroelectric material. In this work, polycrystalline LNO films were prepared through a sputtering technique, and their ferroelectricity-related resistive switching property was investigated using a device structure of PtSi/SiO2/LNO/Pt. The device exhibits a volatile resistance switching property at lower positive sweeping voltages and a stable bipolar nonvolatile switching property at higher sweeping voltages. The resistive switching mechanism of the device is discussed based on the domain wall conductivity characteristics of the polycrystalline LNO thin films. The PtSi/SiO2/LNO/Pt memristor device has potential applications in memory and artificial neural synapses.
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多晶氧化铌锂薄膜的电阻开关特性
作为一种重要的铁电材料,LiNbO3(LNO)目前正受到深入研究。本研究采用溅射技术制备了多晶 LNO 薄膜,并利用 PtSi/SiO2/LNO/Pt 器件结构研究了其与铁电有关的电阻开关特性。该器件在较低正向扫描电压下具有挥发性电阻开关特性,在较高扫描电压下具有稳定的双极性非挥发性开关特性。根据多晶 LNO 薄膜的畴壁电导特性,讨论了该器件的电阻开关机制。PtSi/SiO2/LNO/Pt Memristor 器件有望应用于存储器和人工神经突触。
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