A Dielectric Affinity Microbiosensor

Author(s)

Xian Huang, Columbia University
Siqi Li, University of South Carolina - Columbia
Jerome S. Schultz, University of California, Riverside
Qian Wang, University of South Carolina - ColumbiaFollow
Qiao Lin, Columbia UniversityFollow

Document Type

Article

Subject Area(s)

Chemistry

Abstract

We present an affinity biosensing approach that exploits changes in dielectric properties of a polymer due to its specific, reversible binding with an analyte. The approach is demonstrated using a microsensor comprising a pair of thin-film capacitive electrodes sandwiching a solution of poly(acrylamide-ran-3-acrylamidophenylboronic acid), a synthetic polymer with specific affinity to glucose. Binding with glucose induces changes in the permittivity of the polymer, which can be measured capacitively for specific glucose detection, as confirmed by experimental results at physiologically relevant concentrations. The dielectric affinity biosensing approach holds the potential for practical applications such as long-term continuous glucose monitoring.

Digital Object Identifier (DOI)

https://doi.org/10.1063/1.3291669

Publication Info

Published in Applied Physics Letters, Volume 96, Issue 3, 2010, pages 033701-.

© Applied Physics Letters 2010. American Institute of Physics

APA Citation

Huang, X., Li, S., Schultz, J., Wang, Q., & Lin, Q. (2010). A Dielectric Affinity Microbiosensor. Applied Physics Letters, 96(1), 033701. https://doi.org/10.1063/1.3291669

Rights

© Applied Physics Letters 2010. American Institute of Physics