Conducting polymer composite based on nano-cellulose for biosensing application
Application of conducting polymers of polypyrrole and polyaniline-cellulose nanocrystal based composite as electron-transfer pathways in enzyme electrodes was investigated. Polypyrrole-cellulose nanocrystal (PPy-CNC)-based composite as a novel immobilization membrane was prepared by chemical polymer...
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Omics Publishing Group
2016
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my.upm.eprints.538242019-05-10T01:34:40Z http://psasir.upm.edu.my/id/eprint/53824/ Conducting polymer composite based on nano-cellulose for biosensing application Abdi, Mahnaz M. Esmaeili, Chakavak Mathew, Aji P. Jonoobi, Mehdi Oksman, Kristiina Md Tahir, Paridah Application of conducting polymers of polypyrrole and polyaniline-cellulose nanocrystal based composite as electron-transfer pathways in enzyme electrodes was investigated. Polypyrrole-cellulose nanocrystal (PPy-CNC)-based composite as a novel immobilization membrane was prepared by chemical polymerization. Modified electrodes were prepared based on drop casting of nanocomposite suspension on the screen printed electrode (SPE) surface following by GOx immobilization. Field emission scanning electron microscopy (FESEM) images showed the porous structure of the nanocomposite with large surface area which could accommodate a large quantity of enzyme and allow the rapid diffusion of the active enzyme into the sensing membrane. The electrochemical and DPV responses of the GOx for glucose biosensor detection were examined in detail. The anodic current (Ip) in the voltammogram of the modified electrode prepared from PPy-CNC showed higher value compare to modified electrode prepared from pure polymer indicating CNC enhanced electron transferring and biosensor performance. The modified glucose biosensor exhibits a high sensitivity (ca. 0.73 μA.mM−1), with a dynamic response ranging from 1.0 to 20 mM glucose. The modified glucose biosensor exhibits a limit of detection (LOD) of (50±10) μM and also excludes interfering species, such as ascorbic acid, uric acid, and cholesterol, which makes this sensor suitable for glucose determination in real samples. This sensor displays an acceptable reproducibility and stability over time. The current response was maintained over 95% of the initial value after 17 days, and the current difference measurement obtained using different electrodes provided a relative standard deviation (RSD) of 4.47%. Omics Publishing Group 2016 Article NonPeerReviewed text en http://psasir.upm.edu.my/id/eprint/53824/1/Conducting%20polymer%20composite%20based%20on%20nano-cellulose%20for%20biosensing%20application.pdf Abdi, Mahnaz M. and Esmaeili, Chakavak and Mathew, Aji P. and Jonoobi, Mehdi and Oksman, Kristiina and Md Tahir, Paridah (2016) Conducting polymer composite based on nano-cellulose for biosensing application. Journal of Biosensors & Bioelectronics, 7 (2). p. 43. ISSN 2155-6210 https://www.omicsonline.org/proceedings/conducting-polymer-composite-based-on-nanocellulose-for-biosensing-application-45945.html 10.4172/2155-6210.C1.027 |
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Application of conducting polymers of polypyrrole and polyaniline-cellulose nanocrystal based composite as electron-transfer pathways in enzyme electrodes was investigated. Polypyrrole-cellulose nanocrystal (PPy-CNC)-based composite as a novel immobilization membrane was prepared by chemical polymerization. Modified electrodes were prepared based on drop casting of nanocomposite suspension on the screen printed electrode (SPE) surface following by GOx immobilization. Field emission scanning electron microscopy (FESEM) images showed the porous structure of the nanocomposite with large surface area which could accommodate a large quantity of enzyme and allow the rapid diffusion of the active enzyme into the sensing membrane. The electrochemical and DPV responses of the GOx for glucose biosensor detection were examined in detail. The anodic current (Ip) in the voltammogram of the modified electrode prepared from PPy-CNC showed higher value compare to modified electrode prepared from pure polymer indicating CNC enhanced electron transferring and biosensor performance. The modified glucose biosensor exhibits a high sensitivity (ca. 0.73 μA.mM−1), with a dynamic response ranging from 1.0 to 20 mM glucose. The modified glucose biosensor exhibits a limit of detection (LOD) of (50±10) μM and also excludes interfering species, such as ascorbic acid, uric acid, and cholesterol, which makes this sensor suitable for glucose determination in real samples. This sensor displays an acceptable reproducibility and stability over time. The current response was maintained over 95% of the initial value after 17 days, and the current difference measurement obtained using different electrodes provided a relative standard deviation (RSD) of 4.47%. |
format |
Article |
author |
Abdi, Mahnaz M. Esmaeili, Chakavak Mathew, Aji P. Jonoobi, Mehdi Oksman, Kristiina Md Tahir, Paridah |
spellingShingle |
Abdi, Mahnaz M. Esmaeili, Chakavak Mathew, Aji P. Jonoobi, Mehdi Oksman, Kristiina Md Tahir, Paridah Conducting polymer composite based on nano-cellulose for biosensing application |
author_facet |
Abdi, Mahnaz M. Esmaeili, Chakavak Mathew, Aji P. Jonoobi, Mehdi Oksman, Kristiina Md Tahir, Paridah |
author_sort |
Abdi, Mahnaz M. |
title |
Conducting polymer composite based on nano-cellulose for biosensing application |
title_short |
Conducting polymer composite based on nano-cellulose for biosensing application |
title_full |
Conducting polymer composite based on nano-cellulose for biosensing application |
title_fullStr |
Conducting polymer composite based on nano-cellulose for biosensing application |
title_full_unstemmed |
Conducting polymer composite based on nano-cellulose for biosensing application |
title_sort |
conducting polymer composite based on nano-cellulose for biosensing application |
publisher |
Omics Publishing Group |
publishDate |
2016 |
url |
http://psasir.upm.edu.my/id/eprint/53824/1/Conducting%20polymer%20composite%20based%20on%20nano-cellulose%20for%20biosensing%20application.pdf http://psasir.upm.edu.my/id/eprint/53824/ https://www.omicsonline.org/proceedings/conducting-polymer-composite-based-on-nanocellulose-for-biosensing-application-45945.html |
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1643835496368963584 |
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