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一种基于纤维素/聚苯胺的用于湿度检测的电阻式传感器。

A resistive sensor for humidity detection based on cellulose/polyaniline.

作者信息

Ragazzini Ilaria, Castagnoli Riccardo, Gualandi Isacco, Cassani Maria Cristina, Nanni Daniele, Gambassi Francesca, Scavetta Erika, Bernardi Elena, Ballarin Barbara

机构信息

Department of Industrial Chemistry "Toso Montanari", Bologna University, UdR INSTM Bologna Via Risorgimento 4 I-40136 Bologna Italy

Center for Industrial Research-Advanced Applications in Mechanical Engineering and Materials Technology CIRI MAM University of Bologna Viale del Risorgimento 2 I-40136 Bologna Italy.

出版信息

RSC Adv. 2022 Oct 4;12(43):28217-28226. doi: 10.1039/d2ra03982f. eCollection 2022 Sep 28.

DOI:10.1039/d2ra03982f
PMID:36320282
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9530799/
Abstract

Ambient humidity is an important parameter that affects the manufacturing and storage of several industrial and agricultural goods. In the view of the Internet of Things (IoT), single sensors could be associated with an object for smart monitoring enabling optimum conditions to be maintained. Nevertheless, the production of cost-effective humidity sensors for indoor and outdoor environmental monitoring currently represents the main bottleneck in the development of this technology. Herein we report the results obtained with sensors exclusively made of cellulose and polyaniline (cell/PANI) under strictly controlled relative humidity (30-50 RH%) and temperature (21 ± 1 °C) achieved with a climatic chamber that simulates the conditions of indoor air humidity, and at different RH% in a lab test chamber set-up. Cell/PANI sensors, prepared with a simple, inexpensive, and easily scalable industrial paper process, show a linear trend with a slope of 1.41 μA RH% and a percentage of sensitivity of 13%. Response time as well as percentage of sensitivity results are similar to those of a commercial digital-output relative humidity and temperature sensor (DHT22) employed in parallel for comparison. The commercial sensor DHT22 has a sensitivity of 14%. This low-cost sensor has potential applications in agriculture, food monitoring, and medical and industrial environments as a disposable sensor for humidity detection.

摘要

环境湿度是影响多种工农业产品制造和储存的重要参数。从物联网(IoT)的角度来看,单个传感器可与物体关联以进行智能监测,从而维持最佳条件。然而,目前用于室内和室外环境监测的经济高效型湿度传感器的生产是该技术发展的主要瓶颈。在此,我们报告了在严格控制的相对湿度(30 - 50%RH)和温度(21 ± 1°C)条件下,使用模拟室内空气湿度条件的气候箱以及在实验室测试箱设置中的不同RH%,由纤维素和聚苯胺(cell/PANI)制成的传感器所获得的结果。采用简单、廉价且易于扩展的工业造纸工艺制备的Cell/PANI传感器呈现出线性趋势,斜率为1.41 μA/%RH,灵敏度百分比为13%。响应时间以及灵敏度百分比结果与并行使用的用于比较的商用数字输出相对湿度和温度传感器(DHT22)相似。商用传感器DHT22的灵敏度为14%。这种低成本传感器作为用于湿度检测的一次性传感器在农业、食品监测以及医疗和工业环境中具有潜在应用。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4dcb/9530799/74972f516a5a/d2ra03982f-s1.jpg
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