A non-invasive wearable sweat biosensor with a flexible N-GQDs/PANI nanocomposite layer for glucose monitoring

Understanding the levels change in biomarkers over time, especially glucose, is crucial for diabetics to inform early therapy. Recently, wearable sweat biosensors which operate in a non-invasive way have raised attention, providing continuous monitoring of the severity level. Nevertheless, the key c...

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Published inSensors and actuators. B, Chemical Vol. 383; p. 133617
Main Authors Lin, Yu-Chi, Rinawati, Mia, Chang, Ling-Yu, Wang, Yu-Xuan, Wu, Yu-Ting, Yen, Yi-Han, Chen, Kuan-Jung, Ho, Kuo-Chuan, Yeh, Min-Hsin
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.05.2023
Subjects
Enzymatic
Glucose
Graphene quantum dots
Polyaniline
Sweat
Wearable biosensor
Enzymatic
Wearable biosensor
Glucose
Polyaniline
Sweat
Graphene quantum dots
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Abstract Understanding the levels change in biomarkers over time, especially glucose, is crucial for diabetics to inform early therapy. Recently, wearable sweat biosensors which operate in a non-invasive way have raised attention, providing continuous monitoring of the severity level. Nevertheless, the key challenges are that multiplexed motions may result in undesirable metal cracking by the rigid electrocatalytic layer, leading to decreased sensitivity and stability. In this work, we designed an N-GQDs anchored PANI matrix to realize flexible wearable biosensors with high detection accuracy. Upon the enhanced electron transfer by N-GQDs, N-GQDs/PANI nanocomposite offers greater sensitivity in H2O2 detection compared to pristine PANI, resulting in a sensitivity of 68.1 ± 1.11 and 44.06 ± 2.1 μA mM−1 cm−2, respectively. Moreover, after the glucose oxidase (GOx) immobilization, GOx/N-GQDs/PANI-based biosensors had shown excellent performance for glucose detection in artificial sweat. Precise glucose detection was also maintained after integrating into a flexible electrode, the sensitivity of the GOx/N-GQDs/PANI-based biosensor had retained 93.2 % with no apparent cracks in the morphology of the nanocomposite layer, compared to GOx/Pt-based one (71.3 %) toward glucose detection after a continuous bending test. Thus, the N-GQDs/PANI nanocomposite layer can provide reliable long-term monitoring with robust electrodes for non-invasive human sweat glucose monitoring on a wearable biosensor. [Display omitted] •A novel developed nanocomposite layer of N-GQDs/PANI was proposed.•The relationship between the N doping levels of N-GQDs and PANI toward H2O2 detection has explored.•The N-GQDs modified PANI successfully lowered the charge transfer resistance.•GOx/N-GQDs/PANI can maintain its excellent sensitivity under continuous bending test.
AbstractList Understanding the levels change in biomarkers over time, especially glucose, is crucial for diabetics to inform early therapy. Recently, wearable sweat biosensors which operate in a non-invasive way have raised attention, providing continuous monitoring of the severity level. Nevertheless, the key challenges are that multiplexed motions may result in undesirable metal cracking by the rigid electrocatalytic layer, leading to decreased sensitivity and stability. In this work, we designed an N-GQDs anchored PANI matrix to realize flexible wearable biosensors with high detection accuracy. Upon the enhanced electron transfer by N-GQDs, N-GQDs/PANI nanocomposite offers greater sensitivity in H2O2 detection compared to pristine PANI, resulting in a sensitivity of 68.1 ± 1.11 and 44.06 ± 2.1 μA mM−1 cm−2, respectively. Moreover, after the glucose oxidase (GOx) immobilization, GOx/N-GQDs/PANI-based biosensors had shown excellent performance for glucose detection in artificial sweat. Precise glucose detection was also maintained after integrating into a flexible electrode, the sensitivity of the GOx/N-GQDs/PANI-based biosensor had retained 93.2 % with no apparent cracks in the morphology of the nanocomposite layer, compared to GOx/Pt-based one (71.3 %) toward glucose detection after a continuous bending test. Thus, the N-GQDs/PANI nanocomposite layer can provide reliable long-term monitoring with robust electrodes for non-invasive human sweat glucose monitoring on a wearable biosensor. [Display omitted] •A novel developed nanocomposite layer of N-GQDs/PANI was proposed.•The relationship between the N doping levels of N-GQDs and PANI toward H2O2 detection has explored.•The N-GQDs modified PANI successfully lowered the charge transfer resistance.•GOx/N-GQDs/PANI can maintain its excellent sensitivity under continuous bending test.
ArticleNumber 133617
Author Rinawati, Mia
Wang, Yu-Xuan
Lin, Yu-Chi
Yen, Yi-Han
Chen, Kuan-Jung
Wu, Yu-Ting
Ho, Kuo-Chuan
Yeh, Min-Hsin
Chang, Ling-Yu
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  surname: Lin
  fullname: Lin, Yu-Chi
  organization: Department of Chemical Engineering, National Taiwan University of Science and Technology, Taipei 10607, Taiwan
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  givenname: Mia
  surname: Rinawati
  fullname: Rinawati, Mia
  organization: Department of Chemical Engineering, National Taiwan University of Science and Technology, Taipei 10607, Taiwan
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  givenname: Ling-Yu
  surname: Chang
  fullname: Chang, Ling-Yu
  organization: Institute of Polymer Science and Engineering, National Taiwan University, Taipei 10617, Taiwan
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  surname: Wang
  fullname: Wang, Yu-Xuan
  organization: Department of Chemical Engineering, National Taiwan University of Science and Technology, Taipei 10607, Taiwan
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  surname: Wu
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  fullname: Yen, Yi-Han
  organization: Mighty Electronic Co, Ltd, Hsinchu City, Taiwan
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  givenname: Kuan-Jung
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  fullname: Chen, Kuan-Jung
  organization: Mighty Electronic Co, Ltd, Hsinchu City, Taiwan
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  surname: Ho
  fullname: Ho, Kuo-Chuan
  organization: Institute of Polymer Science and Engineering, National Taiwan University, Taipei 10617, Taiwan
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  givenname: Min-Hsin
  surname: Yeh
  fullname: Yeh, Min-Hsin
  email: mhyeh@mail.ntust.edu.tw
  organization: Department of Chemical Engineering, National Taiwan University of Science and Technology, Taipei 10607, Taiwan
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Keywords Enzymatic
Wearable biosensor
Glucose
Polyaniline
Sweat
Graphene quantum dots
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Snippet Understanding the levels change in biomarkers over time, especially glucose, is crucial for diabetics to inform early therapy. Recently, wearable sweat...
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SourceType Enrichment Source
Index Database
Publisher
StartPage 133617
SubjectTerms Enzymatic
Glucose
Graphene quantum dots
Polyaniline
Sweat
Wearable biosensor
Title A non-invasive wearable sweat biosensor with a flexible N-GQDs/PANI nanocomposite layer for glucose monitoring
URI https://dx.doi.org/10.1016/j.snb.2023.133617
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