Humidity response of a capacitive sensor based on auxeticity of carbon nanotube-paper composites

Nano Express Pub Date : 2022-04-14 DOI:10.1088/2632-959X/ac6764

Zhongjie Qian, Tianyi Li, Vigneshwar Sakthivelpathi, Sheila M. Goodman, Anthony B. Dichiara, A. Mamishev, J. Chung

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引用次数: 2

Abstract

Auxetic materials showing a negative Poisson’s ratio can offer unusual sensing capabilities due to drastic percolation changes. This study presents the capacitive response of wet-fractured carbon nanotube paper composites in exposure to humidity. A strained composite strip is fractured to produce numerous cantilevers consisting of cellulose fibers coated with carbon nanotubes. During stretching, the thin composite buckles in the out-of-plane direction, which causes auxetic behavior to generate the radially structured electrodes. The crossbar junctions forming among the fractured electrodes significantly increase capacitance and its response to humidity as a function of sensor widths. The molecular junctions switch electric characteristics between predominantly resistive- and capacitive elements. The resulting capacitive response is characterized for humidity sensing without the need for an additional absorption medium. The normalized capacitance change (ΔC/C0) exhibits a sensitivity of 0.225 within the range of 40 ∼ 80% relative humidity. The novel auxetic behavior of a water-printed paper-based nanocomposite paves the way for inexpensive humidity and sweat sensors.

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基于碳纳米管-纸复合材料弹性特性的电容式传感器湿度响应

由于剧烈的渗透变化，显示负泊松比的辅助材料可以提供不寻常的传感能力。研究了湿裂碳纳米管纸复合材料在潮湿条件下的电容响应。拉伸复合材料条断裂，产生由涂有碳纳米管的纤维素纤维组成的许多悬臂梁。在拉伸过程中，薄复合材料在面外方向发生屈曲，从而产生径向结构电极。在断裂电极之间形成的横杆结显著增加了电容及其对湿度的响应，这是传感器宽度的函数。分子结在主要的电阻和电容元件之间切换电特性。所得到的电容响应的特点是湿度传感，而不需要额外的吸收介质。归一化电容变化(ΔC/C0)在相对湿度40 ~ 80%范围内的灵敏度为0.225。一种新型的水印纸纳米复合材料为廉价的湿度和汗液传感器铺平了道路。

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

Nano Express

CiteScore

6.40

自引率

0.00%

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