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通过无溶剂拉伸法制备的环保型全碳纸电子产品。

Eco-friendly all-carbon paper electronics fabricated by a solvent-free drawing method.

作者信息

Kanaparthi Srinivasulu, Badhulika Sushmee

机构信息

Department of Electrical Engineering, Indian Institute of Technology Hyderabad, India.

出版信息

Nanotechnology. 2016 Mar 4;27(9):095206. doi: 10.1088/0957-4484/27/9/095206. Epub 2016 Feb 8.

Abstract

Here we report the fabrication of high-performance all-carbon temperature and infrared (IR) sensors with a solvent-free multiwalled carbon nanotube (MWCNT) trace as the sensing element and commercial graphite pencil trace as the electrical contact on recyclable and biodegradable cellulose filter paper without using any toxic materials or complex procedures. The temperature sensor shows a large negative temperature coefficient of resistance (TCR) in the range of -3100 ppm K(-1) to -4900 ppm K(-1), which is comparable to available commercial temperature sensors, and an activation energy of 34.85 meV. The IR sensor shows a high responsivity of 58.5 V W(-1), which is greater than reported IR sensors with similar dimensions. A detailed study of the conduction mechanism in MWCNTs with temperature and the photo response with IR illumination was done and it was found that the conduction is due to thermally assisted hopping in band tails and the photo response is bolometric in nature. The successful fabrication of these sensors on cellulose filter paper with a comparable performance to existing components indicates that it is possible to fabricate high-performance electronics using low-cost, eco-friendly materials without the need for expensive clean-room processing techniques or harmful chemicals.

摘要

在此,我们报告了高性能全碳温度和红外(IR)传感器的制备,该传感器以无溶剂多壁碳纳米管(MWCNT)痕迹作为传感元件,以商用石墨铅笔痕迹作为可回收和可生物降解纤维素滤纸上的电接触,无需使用任何有毒材料或复杂程序。温度传感器在-3100 ppm K⁻¹至-4900 ppm K⁻¹范围内显示出较大的负电阻温度系数(TCR),这与现有的商用温度传感器相当,其激活能为34.85 meV。红外传感器显示出58.5 V W⁻¹的高响应度,这比报道的具有类似尺寸的红外传感器更高。对MWCNTs中温度传导机制和红外光照下的光响应进行了详细研究,发现传导是由于带尾中的热辅助跳跃,光响应本质上是热辐射的。这些传感器在纤维素滤纸上成功制备,性能与现有组件相当,这表明使用低成本、环保材料制造高性能电子产品是可能的,无需昂贵的洁净室加工技术或有害化学物质。

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