Strongly correlated proton-doped perovskite nickelate memory devices

Dana Weinstein; Fan Zuo; Jianqiang Lin; Koushik Ramadoss; Muhammad Ashraful Alam; SangHoon Shin; Shriram Ramanathan; Supratik Guha; Umesh Bhaskar; Yifei Sun

arxiv: 1805.00527 · v1 · pith:6K2TGCZOnew · submitted 2018-05-01 · ❄️ cond-mat.mes-hall · cond-mat.mtrl-sci

Strongly correlated proton-doped perovskite nickelate memory devices

Koushik Ramadoss , Fan Zuo , Yifei Sun , Zhen Zhang , Jianqiang Lin , Umesh Bhaskar , SangHoon Shin , Muhammad Ashraful Alam

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Supratik Guha Dana Weinstein Shriram Ramanathan

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classification ❄️ cond-mat.mes-hall cond-mat.mtrl-sci

keywords devicesmemoryswitchingcorrelatedperovskitebeencomputingdate

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We demonstrate memory devices based on proton doping and re-distribution in perovskite nickelates (RNiO3, {R=Sm,Nd}) that undergo filling-controlled Mott transition. Switching speeds as high as 30 ns in two-terminal devices patterned by electron-beam lithography is observed. The state switching speed reported here are 300X greater than what has been noted with proton-driven resistance switching to date. The ionic-electronic correlated oxide memory devices also exhibit multi-state non-volatile switching. The results are of relevance to use of quantum materials in emerging memory and neuromorphic computing.

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Strongly correlated proton-doped perovskite nickelate memory devices

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