Fabric-Based Electrochemical Glucose Sensor with Integrated Millifluidic Path from a Hydrophobic Batik Wax
In recent years, measuring and monitoring analyte concentrations continuously, frequently, and periodically has been a vital necessity for certain individuals. We developed a cotton-based millifluidic fabric-based electrochemical device (mFED) to monitor glucose continuously and evaluate the effects...
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MDPI AG
2023-06-01
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| Series: | Sensors |
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| Online Access: | https://www.mdpi.com/1424-8220/23/13/5833 |
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| author | Isa Anshori Elfrida Vanesa Heriawan Putri Yulianti Suhayat Dedy H. B. Wicaksono Samuel Priyantoro Kusumocahyo Ardianto Satriawan Wervyan Shalannanda Latifa Dwiyanti Casi Setianingsih Murni Handayani |
| author_facet | Isa Anshori Elfrida Vanesa Heriawan Putri Yulianti Suhayat Dedy H. B. Wicaksono Samuel Priyantoro Kusumocahyo Ardianto Satriawan Wervyan Shalannanda Latifa Dwiyanti Casi Setianingsih Murni Handayani |
| author_sort | Isa Anshori |
| collection | DOAJ |
| description | In recent years, measuring and monitoring analyte concentrations continuously, frequently, and periodically has been a vital necessity for certain individuals. We developed a cotton-based millifluidic fabric-based electrochemical device (mFED) to monitor glucose continuously and evaluate the effects of mechanical deformation on the device’s electrochemical performance. The mFED was fabricated using stencil printing (thick film method) for patterning the electrodes and wax-patterning to make the reaction zone. The analytical performance of the device was carried out using the chronoamperometry method at a detection potential of −0.2 V. The mFED has a linear working range of 0–20 mM of glucose, with LOD and LOQ of 0.98 mM and 3.26 mM. The 3D mFED shows the potential to be integrated as a wearable sensor that can continuously measure glucose under mechanical deformation. |
| first_indexed | 2024-03-11T01:29:23Z |
| format | Article |
| id | doaj.art-6a64c4f728154ceda9c15a6fa052a62e |
| institution | Directory Open Access Journal |
| issn | 1424-8220 |
| language | English |
| last_indexed | 2024-03-11T01:29:23Z |
| publishDate | 2023-06-01 |
| publisher | MDPI AG |
| record_format | Article |
| series | Sensors |
| spelling | doaj.art-6a64c4f728154ceda9c15a6fa052a62e2023-11-18T17:27:26ZengMDPI AGSensors1424-82202023-06-012313583310.3390/s23135833Fabric-Based Electrochemical Glucose Sensor with Integrated Millifluidic Path from a Hydrophobic Batik WaxIsa Anshori0Elfrida Vanesa Heriawan1Putri Yulianti Suhayat2Dedy H. B. Wicaksono3Samuel Priyantoro Kusumocahyo4Ardianto Satriawan5Wervyan Shalannanda6Latifa Dwiyanti7Casi Setianingsih8Murni Handayani9School of Electrical Engineering and Informatics, Bandung Institute of Technology, Bandung 40132, IndonesiaDepartment of Biomedical Engineering, Faculty of Life Sciences and Technology, Swiss German University, Tangerang 15143, IndonesiaSchool of Electrical Engineering and Informatics, Bandung Institute of Technology, Bandung 40132, IndonesiaDepartment of Biomedical Engineering, Faculty of Life Sciences and Technology, Swiss German University, Tangerang 15143, IndonesiaDepartment of Chemical Engineering, Faculty of Life Sciences and Technology, Swiss German University, Tangerang 15143, IndonesiaSchool of Electrical Engineering and Informatics, Bandung Institute of Technology, Bandung 40132, IndonesiaSchool of Electrical Engineering and Informatics, Bandung Institute of Technology, Bandung 40132, IndonesiaSchool of Electrical Engineering and Informatics, Bandung Institute of Technology, Bandung 40132, IndonesiaDepartment of Computer Engineering, School of Electrical Engineering, Telkom University, Bandung 40257, IndonesiaResearch Center for Advanced Materials—National Research and Innovation Agency (BRIN), Tangerang Selatan 15314, IndonesiaIn recent years, measuring and monitoring analyte concentrations continuously, frequently, and periodically has been a vital necessity for certain individuals. We developed a cotton-based millifluidic fabric-based electrochemical device (mFED) to monitor glucose continuously and evaluate the effects of mechanical deformation on the device’s electrochemical performance. The mFED was fabricated using stencil printing (thick film method) for patterning the electrodes and wax-patterning to make the reaction zone. The analytical performance of the device was carried out using the chronoamperometry method at a detection potential of −0.2 V. The mFED has a linear working range of 0–20 mM of glucose, with LOD and LOQ of 0.98 mM and 3.26 mM. The 3D mFED shows the potential to be integrated as a wearable sensor that can continuously measure glucose under mechanical deformation.https://www.mdpi.com/1424-8220/23/13/5833millifluidic devices and lab-on-chip deviceschemical and biological sensorfabric-basedcontinuous glucose monitoringsensor testing and evaluationstencil printing |
| spellingShingle | Isa Anshori Elfrida Vanesa Heriawan Putri Yulianti Suhayat Dedy H. B. Wicaksono Samuel Priyantoro Kusumocahyo Ardianto Satriawan Wervyan Shalannanda Latifa Dwiyanti Casi Setianingsih Murni Handayani Fabric-Based Electrochemical Glucose Sensor with Integrated Millifluidic Path from a Hydrophobic Batik Wax Sensors millifluidic devices and lab-on-chip devices chemical and biological sensor fabric-based continuous glucose monitoring sensor testing and evaluation stencil printing |
| title | Fabric-Based Electrochemical Glucose Sensor with Integrated Millifluidic Path from a Hydrophobic Batik Wax |
| title_full | Fabric-Based Electrochemical Glucose Sensor with Integrated Millifluidic Path from a Hydrophobic Batik Wax |
| title_fullStr | Fabric-Based Electrochemical Glucose Sensor with Integrated Millifluidic Path from a Hydrophobic Batik Wax |
| title_full_unstemmed | Fabric-Based Electrochemical Glucose Sensor with Integrated Millifluidic Path from a Hydrophobic Batik Wax |
| title_short | Fabric-Based Electrochemical Glucose Sensor with Integrated Millifluidic Path from a Hydrophobic Batik Wax |
| title_sort | fabric based electrochemical glucose sensor with integrated millifluidic path from a hydrophobic batik wax |
| topic | millifluidic devices and lab-on-chip devices chemical and biological sensor fabric-based continuous glucose monitoring sensor testing and evaluation stencil printing |
| url | https://www.mdpi.com/1424-8220/23/13/5833 |
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