Dynamical self-rectifying memristors based on halide perovskite nanocrystals

Ziyu He, Yuncheng Mu, Shu Zhou
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Abstract

The integration of rectifying effects with resistance switching in a self-rectifying memristor offers the opportunity to suppress the sneak current in high-density crossbar arrays for energy-efficient neuromorphic computing. Here, we report a new type of two-terminal self-rectifying memristor that gets rid of asymmetric complex structures by using CsPbBr3 perovskite nanocrystals (NCs). The simple metal-insulator-metal (Au/CsPbBr3 NCs/Au) configuration that eases integration exhibits multiple resistance states that can be precisely controlled by the stimulus properties and dynamical rectifying characteristics dependent on both the bias voltage and bias time. We have extended an earlier proposed theory that predicts electric-potential-distribution-controlled rectification to rationalize all the observed rectifying behavior that are regulated by mobile-ion-induced interfacial electrochemical reactions and found excellent agreement between theory and experiments. Our study thus demonstrates the possibility of constructing controllable self-rectifying memristors without involving asymmetric complex structures, paving a new way for resolving the sneak current issue in crossbar arrays of memristors.

Abstract Image

基于卤化物过氧化物纳米晶体的动态自校正忆阻器
在自整流忆阻器中整合整流效应和电阻开关,为抑制高密度交叉棒阵列中的潜行电流提供了机会,从而实现高能效的神经形态计算。在这里,我们报告了一种新型双端自整流忆阻器,它通过使用 CsPbBr3 包晶石纳米晶体(NCs)摆脱了不对称的复杂结构。这种易于集成的简单金属-绝缘体-金属(Au/CsPbBr3 NCs/Au)结构呈现出多种电阻状态,可通过刺激特性和动态整流特性精确控制,而动态整流特性则取决于偏置电压和偏置时间。我们扩展了早先提出的预测电位分布控制整流的理论,以合理解释所有观察到的由移动离子诱导的界面电化学反应调节的整流行为,并发现理论与实验之间存在极好的一致性。因此,我们的研究证明了在不涉及非对称复杂结构的情况下构建可控自整流忆阻器的可能性,为解决忆阻器交叉棒阵列中的潜行电流问题铺平了新的道路。
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CiteScore
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