A first-generation amperometric galactose biosensor has been systematically developed utilizing layer-by-layer (LbL) construction of xerogels, polymers, and carbon nanotubes toward a greater fundamental understanding of sensor design with these materials and the potential development of a more efficient galactosemia diagnostic tool for clinical application. The effect of several parameters (xerogel silane precursor, buffer pH, enzyme concentration, drying time and the inclusion of a polyurethane (PU) outer layer) on galactose sensitivity were investigated with the critical nature of xerogel selection being demonstrated. Xerogels formed from silanes with medium, aliphatic side chains were shown to exhibit significant enhancements in sensitiv...
A colorimetric method for quantification of galactose, which utilizes a nanostructured multi-catalys...
This work addresses the comparison of different strategies for improving biosensor performance using...
In this paper, we presented a galactose biosensing system based on boronic acid functionalized carbo...
A first-generation amperometric galactose biosensor is present. The sensor utilized xerogels as immo...
Biosensing strategies that employ readily adaptable materials for different analytes, can be miniatu...
Biosensor research has gained significant interest during recent years due to its importance in a va...
Galactosemia is an inherited disease that occurs as a result of insufficient or no synthesis of some...
The development of a disposable amperometric biosensor for the measurement of circulating galactose ...
Abstract: In the current paper, galactose-oxidase enzyme is used as stabilization medium due to its ...
Chitosan was chosen as a natural polymer for dispersion of single walled carbon nanotubes (SWNT) bas...
First-generation amperometric glucose biosensors incorporating alkanethiolate-protected gold nanopar...
First generation biosensor development is of interest because the strategy can be readily adapted to...
International audienceAn amperometric galactose biosensor was developed by immobilizing galactose ox...
Prussian Blue (PB) based glucose biosensor was prepared by immobilizing glucose oxidase (GOD) in lay...
A direct, low-cost method to determine the concentration of lactose is an important goal with possib...
A colorimetric method for quantification of galactose, which utilizes a nanostructured multi-catalys...
This work addresses the comparison of different strategies for improving biosensor performance using...
In this paper, we presented a galactose biosensing system based on boronic acid functionalized carbo...
A first-generation amperometric galactose biosensor is present. The sensor utilized xerogels as immo...
Biosensing strategies that employ readily adaptable materials for different analytes, can be miniatu...
Biosensor research has gained significant interest during recent years due to its importance in a va...
Galactosemia is an inherited disease that occurs as a result of insufficient or no synthesis of some...
The development of a disposable amperometric biosensor for the measurement of circulating galactose ...
Abstract: In the current paper, galactose-oxidase enzyme is used as stabilization medium due to its ...
Chitosan was chosen as a natural polymer for dispersion of single walled carbon nanotubes (SWNT) bas...
First-generation amperometric glucose biosensors incorporating alkanethiolate-protected gold nanopar...
First generation biosensor development is of interest because the strategy can be readily adapted to...
International audienceAn amperometric galactose biosensor was developed by immobilizing galactose ox...
Prussian Blue (PB) based glucose biosensor was prepared by immobilizing glucose oxidase (GOD) in lay...
A direct, low-cost method to determine the concentration of lactose is an important goal with possib...
A colorimetric method for quantification of galactose, which utilizes a nanostructured multi-catalys...
This work addresses the comparison of different strategies for improving biosensor performance using...
In this paper, we presented a galactose biosensing system based on boronic acid functionalized carbo...