Anodic HfO2 crossbar arrays for hydroxide-based memristive sensing in liquids

IF 2.9 Q2 ELECTROCHEMISTRY
Ivana Zrinski, Dominik Knapic, A. W. Hassel, A. I. Mardare
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引用次数: 0

Abstract

The development of miniaturized and portable sensing devices is crucial to meeting the high processing capacity demands of contemporary computing systems. Hence, the conceptualization of memristive sensors for hydroxide-containing liquids is proposed in this study. Metal-insulator-metal (MIM) structures were formed on electrochemically anodized Hf thin films with Pt patterned as top electrodes. These MIM memristive structures were integrated into a crossbar array, allowing the investigation of a high number of potential memristor sensors. The MIM structures have demonstrated sensing possibilities in the detection of the hydroxyl ion in D-glucose, used as a standard solution. The sensing method was based on the resistive state ratio extracted from I-U sweeps measurements. Analytical characterization of the memristor sensor was done based on the resistive state ratio in relation to different concentrations of a standard solution drop cast directly on the surface of the device. Linearity was found for D-glucose concentrations ranging from 10 mM to 80 mM with a reasonable corresponding correlation factor (R2=0.96809). Additionally, D-glucose incorporation in anodic oxide was studied by XPS to investigate its effect on conductive filaments formation. A carbon bonded by a single covalent bond to oxygen (O-C-O) was detected, confirming the proposed sensing mechanism defined by the glucose penetrating the oxide/electrode interface.
用于液体中氢氧根记忆电阻传感的阳极氢氧根横栅阵列
小型化和便携式传感设备的发展是满足当代计算系统高处理能力需求的关键。因此,在本研究中提出了用于含氢氧化物液体的忆阻传感器的概念。以Pt为顶电极,在电化学阳极化Hf薄膜上形成金属-绝缘体-金属(MIM)结构。这些MIM忆阻结构被集成到一个交叉棒阵列中,允许研究大量潜在的忆阻传感器。在作为标准溶液的d -葡萄糖中,MIM结构已经证明了检测羟基离子的传感可能性。该传感方法基于从I-U扫描测量中提取的电阻状态比。根据直接浇铸在器件表面的不同浓度的标准溶液滴的电阻状态比,对忆阻器传感器进行了分析表征。d -葡萄糖浓度在10 ~ 80 mM范围内呈线性关系(R2=0.96809)。此外,利用XPS研究了d -葡萄糖在阳极氧化物中的掺入对导电丝形成的影响。检测到一个与氧形成共价键的碳(O-C-O),证实了葡萄糖穿透氧化物/电极界面的传感机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.60
自引率
27.30%
发文量
90
审稿时长
6 weeks
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