An intracellular glucose biosensor based on nanoflake ZnO

An intracellular glucose biosensor based on nanoflake ZnO

In this study, an improved potentiometric intracellular glucose biosensor was fabricated with immobilization of glucose oxidase on a ZnO nanoporous material. The ZnO nanoporous material with a wall thickness around 200 nm was grown on the tip of a borosilicate glass capillary and used as a selective...

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Main Authors: Fulati, Alimujiang, Usman Ali, Syed M., Asif, Muhammad H., Hassan Alvi, Naveed Ul, Willander, Magnus, Brännmark, Cecilia, Strålfors, Peter, Börjesson, Sara I., Elinder, Fredrik, Danielsson, Bengt
Format: Others
Language:English
Published: Linköpings universitet, Institutionen för teknik och naturvetenskap 2010
Subjects:
Glucose oxidase (GOD)
Intracellular
Potentiometric biosensor
Nanoflake ZnO
Nafion membrane
NATURAL SCIENCES
NATURVETENSKAP
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-57294
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spelling ndltd-UPSALLA1-oai-DiVA.org-liu-572942013-06-17T16:05:23ZAn intracellular glucose biosensor based on nanoflake ZnOengFulati, AlimujiangUsman Ali, Syed M.Asif, Muhammad H.Hassan Alvi, Naveed UlWillander, MagnusBrännmark, CeciliaStrålfors, PeterBörjesson, Sara I.Elinder, FredrikDanielsson, BengtLinköpings universitet, Institutionen för teknik och naturvetenskapLinköpings universitet, Tekniska högskolanLinköpings universitet, Institutionen för teknik och naturvetenskapLinköpings universitet, Tekniska högskolanLinköpings universitet, Institutionen för teknik och naturvetenskapLinköpings universitet, Tekniska högskolanLinköpings universitet, Institutionen för teknik och naturvetenskapLinköpings universitet, Tekniska högskolanLinköpings universitet, Institutionen för teknik och naturvetenskapLinköpings universitet, Tekniska högskolanLinköpings universitet, CellbiologiLinköpings universitet, HälsouniversitetetLinköpings universitet, CellbiologiLinköpings universitet, HälsouniversitetetLinköpings universitet, CellbiologiLinköpings universitet, HälsouniversitetetLinköpings universitet, CellbiologiLinköpings universitet, HälsouniversitetetLund University, Sweden2010Glucose oxidase (GOD)IntracellularPotentiometric biosensorNanoflake ZnONafion membraneNATURAL SCIENCESNATURVETENSKAPIn this study, an improved potentiometric intracellular glucose biosensor was fabricated with immobilization of glucose oxidase on a ZnO nanoporous material. The ZnO nanoporous material with a wall thickness around 200 nm was grown on the tip of a borosilicate glass capillary and used as a selective intracellular glucose sensor for the measurement of glucose concentrations in human adipocytes and frog oocytes. The results showed a fast response within 4 s and a linear glucosedependent electrochemical response over a wide range of glucose concentration (500 nM-10 mM). The measurements of intracellular glucose concentrations with our biosensor were consistent with the values of intracellular glucose concentrations reported in the literature. The sensor also demonstrated its capability by detecting an increase in the intracellular glucose concentration induced by insulin. We found that the ZnO nanoporous material provides sensitivity as high as 1.8 times higher than that obtained using ZnO nanorods under the same conditions. Moreover, the fabrication method in our experiment is simple and the excellent performance of the developed nanosensor in sensitivity, stability, selectivity, reproducibility and anti-interference was achieved. All these advantageous features of this intracellular glucose biosensor based on functionalised ZnO nanoporous material compared to ZnO nanorods demonstrate a promising way of enhancing glucose biosensor performance to measure reliable intracellular glucose concentrations within single living cells. <p>Original Publication:Alimujiang Fulati, Syed M. Usman Ali, Muhammad H. Asif, Naveed Ul Hassan Alvi, Magnus Willander, Cecilia Brännmark, Peter Strålfors, Sara I. Börjesson and Fredrik Elinder, An intracellular glucose biosensor based on nanoflake ZnO, 2010, Sensors and actuators. B, Chemical, (150), 2, 673-680.http://dx.doi.org/10.1016/j.snb.2010.08.021Copyright: Elsevier Science B.V., Amsterdam.http://www.elsevier.com/</p>Article in journalinfo:eu-repo/semantics/articletexthttp://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-57294doi:10.1016/j.snb.2010.08.021ISI:000284339800026Sensors and actuators. B, Chemical, 0925-4005, 2010, 150:2, s. 673-680application/pdfinfo:eu-repo/semantics/openAccess
collection NDLTD
language English
format Others
sources NDLTD
topic Glucose oxidase (GOD)
Intracellular
Potentiometric biosensor
Nanoflake ZnO
Nafion membrane
NATURAL SCIENCES
NATURVETENSKAP
spellingShingle Glucose oxidase (GOD)
Intracellular
Potentiometric biosensor
Nanoflake ZnO
Nafion membrane
NATURAL SCIENCES
NATURVETENSKAP
Fulati, Alimujiang
Usman Ali, Syed M.
Asif, Muhammad H.
Hassan Alvi, Naveed Ul
Willander, Magnus
Brännmark, Cecilia
Strålfors, Peter
Börjesson, Sara I.
Elinder, Fredrik
Danielsson, Bengt
An intracellular glucose biosensor based on nanoflake ZnO
description In this study, an improved potentiometric intracellular glucose biosensor was fabricated with immobilization of glucose oxidase on a ZnO nanoporous material. The ZnO nanoporous material with a wall thickness around 200 nm was grown on the tip of a borosilicate glass capillary and used as a selective intracellular glucose sensor for the measurement of glucose concentrations in human adipocytes and frog oocytes. The results showed a fast response within 4 s and a linear glucosedependent electrochemical response over a wide range of glucose concentration (500 nM-10 mM). The measurements of intracellular glucose concentrations with our biosensor were consistent with the values of intracellular glucose concentrations reported in the literature. The sensor also demonstrated its capability by detecting an increase in the intracellular glucose concentration induced by insulin. We found that the ZnO nanoporous material provides sensitivity as high as 1.8 times higher than that obtained using ZnO nanorods under the same conditions. Moreover, the fabrication method in our experiment is simple and the excellent performance of the developed nanosensor in sensitivity, stability, selectivity, reproducibility and anti-interference was achieved. All these advantageous features of this intracellular glucose biosensor based on functionalised ZnO nanoporous material compared to ZnO nanorods demonstrate a promising way of enhancing glucose biosensor performance to measure reliable intracellular glucose concentrations within single living cells. === <p>Original Publication:Alimujiang Fulati, Syed M. Usman Ali, Muhammad H. Asif, Naveed Ul Hassan Alvi, Magnus Willander, Cecilia Brännmark, Peter Strålfors, Sara I. Börjesson and Fredrik Elinder, An intracellular glucose biosensor based on nanoflake ZnO, 2010, Sensors and actuators. B, Chemical, (150), 2, 673-680.http://dx.doi.org/10.1016/j.snb.2010.08.021Copyright: Elsevier Science B.V., Amsterdam.http://www.elsevier.com/</p>
author Fulati, Alimujiang
Usman Ali, Syed M.
Asif, Muhammad H.
Hassan Alvi, Naveed Ul
Willander, Magnus
Brännmark, Cecilia
Strålfors, Peter
Börjesson, Sara I.
Elinder, Fredrik
Danielsson, Bengt
author_facet Fulati, Alimujiang
Usman Ali, Syed M.
Asif, Muhammad H.
Hassan Alvi, Naveed Ul
Willander, Magnus
Brännmark, Cecilia
Strålfors, Peter
Börjesson, Sara I.
Elinder, Fredrik
Danielsson, Bengt
author_sort Fulati, Alimujiang
title An intracellular glucose biosensor based on nanoflake ZnO
title_short An intracellular glucose biosensor based on nanoflake ZnO
title_full An intracellular glucose biosensor based on nanoflake ZnO
title_fullStr An intracellular glucose biosensor based on nanoflake ZnO
title_full_unstemmed An intracellular glucose biosensor based on nanoflake ZnO
title_sort intracellular glucose biosensor based on nanoflake zno
publisher Linköpings universitet, Institutionen för teknik och naturvetenskap
publishDate 2010
url http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-57294
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