A Low-Cost Paper Glucose Sensor with Molecularly Imprinted Polyaniline Electrode. Academic Article

abstract

• For the hundreds of millions of worldwide diabetic patients, glucose test strips are the most important and commonly used tool for monitoring blood glucose levels. Commercial test strips use glucose oxidases as recognition agents, which increases the cost and reduces the durability of test strips. To lower the cost of glucose sensors, we developed a paper-based electrical sensor with molecularly imprinted glucose recognition sites and demonstrated the determination of various glucose concentrations in bovine blood solutions. The sensing electrode is integrated with molecular recognition sites in the conductive polymer. A calibration graph as a function of glucose concentration in aqueous solution was acquired and matched with a correlation coefficient of 0.989. We also demonstrated the determination of the added glucose concentrations ranging from 2.2 to 11.1 mM in bovine blood samples with a linear correlation coefficient of 0.984. This non-enzymatic glucose sensor has the potential to reduce the health care cost of test strips as well as make glucose sensor test strips more accessible to underserved communities.

authors

• Kameoka, Jun

published proceedings

• Sensors (Basel)

author list (cited authors)

• Chen, Z., Wright, C., Dincel, O., Chi, T., & Kameoka, J.

citation count

• 12

complete list of authors

• Chen, Zheyuan||Wright, Christopher||Dincel, Onder||Chi, Ting-Yen||Kameoka, Jun

publication date

• January 2020

publisher

• MDPI  Publisher

published in

• Sensors  Journal

keywords

• Aniline Compounds
• Biosensing Techniques
• Electrochemical Techniques
• Electrodes
• Enzyme Free
• Glucose
• Glucose Sensing
• Gold
• Humans
• Low Cost
• Molecular Imprinting
• Paper Sensor
• Polyaniline

Digital Object Identifier (DOI)

• 10.3390/s20041098

start page

• 1098

end page

• 1098

volume

• 20

issue

• 4

URL

• http://dx.doi.org/10.3390/s20041098