M. Gaillard scite author profile

M. Gaillard

2Publications

41Citation Statements Received

49Citation Statements Given

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Affiliations

Florida State University, Clemson University

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Fabrication of Functionalized Carbon Nanotube Buckypaper Electrodes for Application in Glucose Biosensors

et al. 2014

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A highly sensitive glucose detection method was developed using functionalized carbon nanotube buckypaper as a free standing electrode in an electrochemical biosensor. Glucose oxidase was immobilized onto various buckypaper samples in order to oxidize glucose resulting in a measureable current/voltage signal output of the biosensor. Cyclic voltammetry (CV) and amperometry were utilized to determine the sensitivity of these buckypaper electrodes. Sensors of three different types of buckypaper were prepared and compared. These modified buckypaper electrode-based sensors showed much higher sensitivity to glucose compared to other electrochemical glucose sensors.

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Physisorption of functionalized gold nanoparticles on AlGaN/GaN high electron mobility transistors for sensing applications

Makowski

Kim

Gaillard

et al. 2013

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AlGaN/GaN high electron mobility transistors (HEMTs) were used to measure electrical characteristics of physisorbed gold nanoparticles (Au NPs) functionalized with alkanethiols with a terminal methyl, amine, or carboxyl functional group. Additional alkanethiol was physisorbed onto the NP treated devices to distinguish between the effects of the Au NPs and alkanethiols on HEMT operation. Scanning Kelvin probe microscopy and electrical measurements were used to characterize the treatment effects. The HEMTs were operated near threshold voltage due to the greatest sensitivity in this region. The Au NP/HEMT system electrically detected functional group differences on adsorbed NPs which is pertinent to biosensor applications. With the need for rapid detection of biomolecular analytes in the life sciences and medicine, the research community has made great progress in developing microscale and nanoscale sensors for many biological applications.1,2 One promising biosensor structure is the AlGaN/GaN high electron mobility transistor (HEMT) due to its chemical stability, 2 electrical stability in ionic solutions, 3 biocompatibility, 4,5 and high sensitivity to adsorbed surface charges. 2 These devices have been used for many biomedical and life sciences applications including detection of proteins, 6 DNA,7 pathogens, 8 and cellular signals. 9 A two dimensional electron gas (2DEG) is formed at the interface between the AlGaN and GaN layers due to piezoelectric polarization and spontaneous polarization that is sensitive to adsorbed surface charges.2 Binding of a charged analyte near the gate area of a HEMT biosensor changes the surface potential at the gate that modulates the conductance of the 2DEG charge carrier channel and results in a measureable change in electrical current through the device. 2,10

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M. Gaillard

Fabrication of Functionalized Carbon Nanotube Buckypaper Electrodes for Application in Glucose Biosensors

Physisorption of functionalized gold nanoparticles on AlGaN/GaN high electron mobility transistors for sensing applications

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