摘要
该文以壳聚糖/导电炭黑复合薄膜作为敏感层,构建了高性能湿度传感器,并研究了传感器件微结构薄膜对呼吸检测敏感的机理。该文展开实验测试了传感器的湿度及呼吸响应特性,使用灵敏度、响应恢复特性、重复性等参数评价传感器性能,同时基于LabVIEW技术实现了湿敏/呼吸信号的实时读取与处理、单片机与电脑终端通信、呼吸波形显示等功能。该检测平台成本低、易操作,为传感器检测技术的实际应用提供了借鉴,同时可促进学生对柔性可穿戴传感器检测实验与应用的深度理解,有效提升课堂教学效果和学生的学习积极性。
[Objective]Respiratory monitoring is essential for determining the vital characteristics of the human body and diagnosis of sleep-disordered breathing,critical diseases,and neonates.Moreover,micro/nanosensors play an important role in healthcare.In particular,they can detect changes in humidity around the nose and mouth for analysis of respiratory behavior.Herein,a high-performance flexible wearable humidity sensor was developed using a chitosan/conductive carbon black(CS/CB)hybrid film as the sensitive layer for respiratory detection.[Methods]The humidity sensor was fabricated by screen-printing a CS/CB film on a flexible poly(ethylene terephthalate)substrate with interdigitated electrodes.Scanning electron microscopy(SEM)was conducted to demonstrate the successful synthesis and combination of the CS/CB hybrid film.The SEM results showed that the CB particles are uniformly embedded in the CS/CB film with porous and rough nanostructures,which can help water molecules diffuse into the sensitive film.The humidity performance of the humidity sensor was tested by switching the device between different RH levels established by several saturated salt solutions(11%–97%RH)at room temperature.The resistance of the CS/CB sensor was measured with a high-precision data logger.The CS/CB humidity sensor had good electrical conductivity,and its resistance was increased with the increase in RH with good linearity.The sensor was experimentally evaluated for its performance parameters,such as sensitivity,response recovery characteristics,and repeatability.The humidity switching test demonstrated that the sensor has a fast response rate and good discrimination to different humidity environments.The sensor under the humidity rise reduction test showed good symmetry and coincidence,indicating that the hysteresis effect can be ignored.The CS/CB humidity sensor demonstrated good repeatability,rapid response/recovery time,and negligible hysteresis.A flexible wearable film-type breath detection platform was developed using a single-chip microcomputer and LabVIEW technologies,which achieved real-time data reading and processing of humidity,communication between the microcontroller and computer terminal,and display of breath waveforms.The detection platform has low production costs and is easy to operate,providing new insights into the practical application of high-performance humidity sensor detection technology.The sensor is placed in the mask for respiratory behavior monitoring,including normal breathing,slow breathing,rapid breathing,stop breathing,Biot’s breathing,wave breathing,tidal breathing,febrile patient breathing,etc.The breathing frequency and intensity can be observed clearly.[Results]The flexible wearable humidity sensor could monitor and analyze human respiratory conditions with high accuracy and reliability.It demonstrated good application in real-time human breath monitoring.The humidity-sensitive mechanism of the sensor was ascribed to the good hydrophilicity and many active sites(hydrophilic groups and vacancies)on the CS/CB nanomaterials to absorb water molecules.In addition,the CS/CB nanomaterial with high surface area had numerous surface-active sites to adsorb water molecules.[Conclusions]The developed CS/CB humidity sensor has great practical potential in wearable applications,especially in humidity sensing detection.It also promotes students’in-depth understanding of the experiments and applications of flexible wearable sensors,effectively enhancing their motivation and effectiveness of teaching.
作者
张冬至
周兰娟
徐振原
朱华建
刘希臣
ZHANG Dongzhi;ZHOU Lanjuan;XU Zhenyuan;ZHU Huajian;LIU Xichen(College of Control Science and Engineering,China University of Petroleum(East China),Qingdao 266580,China)
出处
《实验技术与管理》
CAS
北大核心
2024年第3期192-196,共5页
Experimental Technology and Management
基金
山东省本科教学改革研究重点项目(Z2022182)
中国石油大学(华东)教学改革项目(CZ2022025,CM2022073,CM2022070)。
关键词
呼吸检测
可穿戴
单片机
湿度传感器
显示界面
respiration detection
wearable
microcontroller
humidity sensor
display interface