Onion-inspired MXene/chitosan-quercetin multilayers: Enhanced response to H2O molecules for wearable human physiological monitoring

•Ultrathin MXene/chitosan-quercetin multilayers were assembled for humidity detection.•Superior sensitivity and ultrafast response for water molecules was realized.•A fully wearable tag was made to implement human physiological monitoring.•The multilayers can track human respiration in real time and...

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Published inSensors and actuators. B, Chemical Vol. 329; p. 129209
Main Authors Li, Xin, Lu, Yanli, Shi, Zhenghan, Liu, Guang, Xu, Gang, An, Zijian, Xing, Huan, Chen, Qingmei, Han, Ray P.S., Liu, Qingjun
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 15.02.2021
Elsevier Science Ltd
Subjects
2D materials
Chitosan
Humidity
Humidity sensing
Monitoring
Multilayers
MXene
MXenes
Onion-simulation
Onions
Physiology
Respiration
Respiration monitoring
Tracking
Two dimensional materials
Water chemistry
Wearable sensor
Wearable technology
Wearable sensor
Respiration monitoring
Humidity sensing
2D materials
MXene
Onion-simulation
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Abstract •Ultrathin MXene/chitosan-quercetin multilayers were assembled for humidity detection.•Superior sensitivity and ultrafast response for water molecules was realized.•A fully wearable tag was made to implement human physiological monitoring.•The multilayers can track human respiration in real time and high resolution. Two-dimensional (2D) materials provides large surface area for H2O molecules adsorption and interaction, which has been utilized in humidity sensing and noninvasive monitoring of physiological events such as respiration. However, disadvantages including slow response or modest response hinder the accurate tracking of human breath. Hence, MXene, the new member of 2D material family with excellent hydrophilicity and tunable conductivity, has drawn much attention. In this work, the enhanced response of Ti3C2Tx MXene to H2O molecules was achieved by onion-inspired assembling of Ti3C2Tx MXene and chitosan-quercetin hybrid layer-by-layer. The chitosan-quercetin modified multilayers suppress the degradation of MXene in environment, exhibiting superior response (317 % at 90 % RH), ultrafast response (0.75 s), and long-term stability (more than 15 days). Integrated with a wireless flexible detecting tag, the multilayers realized wearable human respiration monitoring with robust, accurate tracking capacity, offering a facile and feasible method for versatile physiological monitoring based on humidity sensing.
AbstractList •Ultrathin MXene/chitosan-quercetin multilayers were assembled for humidity detection.•Superior sensitivity and ultrafast response for water molecules was realized.•A fully wearable tag was made to implement human physiological monitoring.•The multilayers can track human respiration in real time and high resolution. Two-dimensional (2D) materials provides large surface area for H2O molecules adsorption and interaction, which has been utilized in humidity sensing and noninvasive monitoring of physiological events such as respiration. However, disadvantages including slow response or modest response hinder the accurate tracking of human breath. Hence, MXene, the new member of 2D material family with excellent hydrophilicity and tunable conductivity, has drawn much attention. In this work, the enhanced response of Ti3C2Tx MXene to H2O molecules was achieved by onion-inspired assembling of Ti3C2Tx MXene and chitosan-quercetin hybrid layer-by-layer. The chitosan-quercetin modified multilayers suppress the degradation of MXene in environment, exhibiting superior response (317 % at 90 % RH), ultrafast response (0.75 s), and long-term stability (more than 15 days). Integrated with a wireless flexible detecting tag, the multilayers realized wearable human respiration monitoring with robust, accurate tracking capacity, offering a facile and feasible method for versatile physiological monitoring based on humidity sensing.
Two-dimensional (2D) materials provides large surface area for H2O molecules adsorption and interaction, which has been utilized in humidity sensing and noninvasive monitoring of physiological events such as respiration. However, disadvantages including slow response or modest response hinder the accurate tracking of human breath. Hence, MXene, the new member of 2D material family with excellent hydrophilicity and tunable conductivity, has drawn much attention. In this work, the enhanced response of Ti3C2Tx MXene to H2O molecules was achieved by onion-inspired assembling of Ti3C2Tx MXene and chitosan-quercetin hybrid layer-by-layer. The chitosan-quercetin modified multilayers suppress the degradation of MXene in environment, exhibiting superior response (317 % at 90 % RH), ultrafast response (0.75 s), and long-term stability (more than 15 days). Integrated with a wireless flexible detecting tag, the multilayers realized wearable human respiration monitoring with robust, accurate tracking capacity, offering a facile and feasible method for versatile physiological monitoring based on humidity sensing.
ArticleNumber 129209
Author Liu, Qingjun
Han, Ray P.S.
Liu, Guang
Chen, Qingmei
Xing, Huan
Shi, Zhenghan
An, Zijian
Lu, Yanli
Li, Xin
Xu, Gang
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  givenname: Guang
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  surname: Xing
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  organization: Cancer Research Center, College of Computer Science, Jiangxi University of Traditional Chinese Medicine, Nanchang, Jiangxi 330004, PR China
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  givenname: Qingmei
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  fullname: Chen, Qingmei
  organization: Cancer Research Center, College of Computer Science, Jiangxi University of Traditional Chinese Medicine, Nanchang, Jiangxi 330004, PR China
– sequence: 9
  givenname: Ray P.S.
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  organization: Cancer Research Center, College of Computer Science, Jiangxi University of Traditional Chinese Medicine, Nanchang, Jiangxi 330004, PR China
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  givenname: Qingjun
  surname: Liu
  fullname: Liu, Qingjun
  email: qjliu@zju.edu.cn
  organization: Biosensor National Special Laboratory, Key Laboratory for Biomedical Engineering of Education Ministry, Department of Biomedical Engineering, Zhejiang University, Hangzhou, 310027, PR China
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Keywords Wearable sensor
Respiration monitoring
Humidity sensing
2D materials
MXene
Onion-simulation
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Snippet •Ultrathin MXene/chitosan-quercetin multilayers were assembled for humidity detection.•Superior sensitivity and ultrafast response for water molecules was...
Two-dimensional (2D) materials provides large surface area for H2O molecules adsorption and interaction, which has been utilized in humidity sensing and...
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StartPage 129209
SubjectTerms 2D materials
Chitosan
Humidity
Humidity sensing
Monitoring
Multilayers
MXene
MXenes
Onion-simulation
Onions
Physiology
Respiration
Respiration monitoring
Tracking
Two dimensional materials
Water chemistry
Wearable sensor
Wearable technology
Title Onion-inspired MXene/chitosan-quercetin multilayers: Enhanced response to H2O molecules for wearable human physiological monitoring
URI https://dx.doi.org/10.1016/j.snb.2020.129209
https://www.proquest.com/docview/2499926514
Volume 329
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