Memory traces ruled by surface-biased REDOX reactions

arXiv - PHYS - Chemical Physics Pub Date : 2024-09-11 DOI:arxiv-2409.07299

Ana Luiza Costa Silva, Rafael Schio Wengenroth Silva, Lucas Augusto Moisés, Adenilson José Chiquito, Marcio Peron Franco de Godoy, Fabian Hartmann, Victor Lopez-Richard

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Abstract

Gas and moisture sensing devices leveraging the resistive switching effect in transition metal oxide memristors promise to revolutionize next-generation, nano-scaled, cost-effective, and environmentally sustainable sensor solutions. These sensors encode readouts in resistance state changes based on gas concentration, yet their nonlinear current-voltage characteristics offer richer dynamics, capturing detailed information about REDOX reactions and surface kinetics. Traditional vertical devices fail to fully exploit this complexity. This study demonstrates planar resistive switching devices, moving beyond the Butler-Volmer model. A systematic investigation of the electrochemical processes in Na-doped ZnO with lateral planar contacts reveals intricate patterns resulting from REDOX reactions on the device surface. When combined with advanced algorithms for pattern recognition, allow the analysis of complex switching patterns, including crossings, loop directions, and resistance values, providing unprecedented insights for next-generation complex sensors.

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记忆痕迹由表面偏置的 REDOX 反应决定

利用过渡金属氧化物忆阻器内部的电阻开关效应的气体和湿度传感设备有望彻底改变下一代纳米级、经济高效和环境可持续的传感器解决方案。这些传感器根据气体浓度对电阻状态变化进行编码读出，但其非线性电流-电压特性提供了丰富的动力学特性，可捕捉到有关 REDOX 反应和表面动力学的详细信息。本研究展示了平面电阻开关器件，超越了巴特勒-沃尔默模型。通过对具有横向平面触点的掺钠氧化锌的电化学过程进行系统研究，发现了器件表面的 REDOX 反应所产生的错综复杂的模式。结合先进的模式识别算法，可以分析复杂的开关模式，包括交叉、环路方向和电阻值，为下一代复杂传感器提供前所未有的见解。

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arXiv - PHYS - Chemical Physics

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