DOI
10.1021/la504358t
Abstract
Xerogel-based first-generation amperometric glucose biosensors, constructed through specific layer-by-layer assembly of films featuring glucose oxidase doped xerogel, a diffusion-limiting xerogel layer, and capped with both electropolymerized polyphenol and blended polyurethane semipermeable membranes, are presented. The specific combination of xerogels formed from specific silane precursors, including propyl-trimethoxysilane, isobutyl-trimethoxysilane, octyl-trimethoxysilane, and hydroxymethyl-triethoxysilane, exhibit impressive dynamic and linear ranges of detection (e.g., ≥24–28 mM glucose) and low response times, as well as significant discrimination against common interferent species such as acetaminophen, ascorbic acid, sodium nitrite, oxalic acid, and uric acid as determined by selectivity coefficients. Additionally, systematic electrochemical and contact angle studies of different xerogel silane precursors, varying in structure, chain length, and/or functional group, reveal that sensor performance is more dependent on the tunable porosity/permeability of the layered interfaces rather than the hydrophobic character or functional groups within the films. While the sensing performance largely exceeds that of existing electrochemical glucose sensing schemes in the literature, the presented layered approach establishes the specific functionality of each layer working in concert with each other and suggests that the strategy may be readily adaptable to other clinically relevant targets and is amenable to miniaturization for eventual in situ or in vivo sensing.
Document Type
Post-print Article
Publication Date
1-6-2015
Publisher Statement
Copyright © 2015 ACS Publications. Article first published online: 6 JAN 2015.
The definitive version is available at: https://pubs.acs.org/doi/abs/10.1021/la504358t?source=cen.
Recommended Citation
N. Poulos, J. Hall, and M.C. Leopold, “Functional Layer-By-Layer Design of Xerogel-Based 1st Generation Amperometric Glucose Biosensors,” Langmuir 2015, 31(4), 1547-1555.