材料科学
钙钛矿(结构)
价(化学)
氧气
外延
光电子学
电阻式触摸屏
钛酸锶
锶
氧化还原
化学计量学
纳米技术
化学工程
薄膜
计算机科学
物理化学
化学
图层(电子)
核物理学
物理
计算机视觉
冶金
量子力学
有机化学
工程类
作者
Carlos Moncasi,Gauthier Lefèvre,Quentin Villeger,Laëtitia Rapenne,Thoai‐Khanh Khuu,F. Wilhelm,Andreï Rogalev,Carmen Jiménez,Mónica Burriel
标识
DOI:10.1002/admi.202202496
摘要
Abstract Valence change memories are novel data storage devices in which the resistance is determined by a reversible redox reaction triggered by voltage. The oxygen content and mobility within the active materials of these devices play a crucial role in their performance. Therefore, materials which present fast oxygen migration properties and can accommodate variable oxygen stoichiometry are promising candidates. In this work, the perovskite La 0.5 Sr 0.5 MnO 3‐δ (LSM50) as memristive material is studied, which presents a more facile oxygen vacancy formation and faster oxygen migration compared to other strontium‐substituted manganites. For the first time reproducible resistive switching is reported in epitaxial LSM50‐based devices with active Ti electrodes, which show large operating window and stable multilevel states. Based on the structural, chemical, and electrical results, a simple phenomenological description of the resistive switching phenomena taking place in these novel LSM50‐based memristive devices is proposed.
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