Hyunsu Park scite author profile

Glutamate excitotoxicity is a pathology in which excessive glutamate can cause neuronal damage and degeneration. It has also been linked to secondary injury mechanisms in traumatic spinal cord injury. Conventional bioanalytical techniques used to characterize glutamate levels in vivo, such as microdialysis, have low spatiotemporal resolution, which has impeded our understanding of this dynamic event. In this study, we present an amperometric biosensor fabricated using a simple direct ink writing technique for the purpose of in vivo glutamate monitoring. The biosensor is fabricated by immobilizing glutamate oxidase on nanocomposite electrodes made of platinum nanoparticles, multi-walled carbon nanotubes, and a conductive polymer on a flexible substrate. The sensor is designed to measure extracellular dynamics of glutamate and other potential biomarkers during a traumatic spinal cord injury event. Here we demonstrate good sensitivity and selectivity of these rapidly prototyped implantable biosensors that can be inserted into a spinal cord and measure extracellular glutamate concentration. We show that our biosensors exhibit good flexibility, linear range, repeatability, and stability that are suitable for future in vivo evaluation.

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Electrochemical Evaluations of Fractal Microelectrodes for Energy Efficient Neurostimulation

Park

Takmakov

Lee

2018

Sci Rep

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Advancements in microfabrication has enabled manufacturing of microscopic neurostimulation electrodes with smaller footprint than ever possible. The smaller electrodes can potentially reduce tissue damage and allow better spatial resolution for neural stimulation. Although electrodes of any shape can easily be fabricated, substantial effort have been focused on identification and characterization of new materials and surface morphology for efficient charge injection, while maintaining simple circular or rectangular Euclidean electrode geometries. In this work we provide a systematic electrochemical evaluation of charge injection capacities of serpentine and fractal-shaped platinum microelectrodes and compare their performance with traditional circular microelectrodes. Our findings indicate that the increase in electrode perimeter leads to an increase in maximum charge injection capacity. Furthermore, we found that the electrode geometry can have even more significant impact on electrode performance than having a larger perimeter for a given surface area. The fractal-shaped microelectrodes, despite having smaller perimeter than other designs, demonstrated superior charge injection capacity. Our results suggest that electrode design can significantly affect both Faradaic and non-Faradaic electrochemical processes, which may be optimized to enable a more energy efficient design for neurostimulation.

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Stable colloidal dispersion of octylated Ti3C2-MXenes in a nonpolar solvent

Lim

Park

Yang

et al. 2019

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Anti-biofouling implantable catheter using thin-film magnetic microactuators

Yang

Park

Rhoads

et al. 2018

Sensors and Actuators B: Chemical

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Polyelectrolyte-grafted Ti₃C₂-MXenes stable in extreme salinity aquatic conditions for remediation of contaminated subsurface environments

et al. 2020

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Hyunsu Park

Facile fabrication of flexible glutamate biosensor using direct writing of platinum nanoparticle-based nanocomposite ink

Electrochemical Evaluations of Fractal Microelectrodes for Energy Efficient Neurostimulation

Stable colloidal dispersion of octylated Ti3C2-MXenes in a nonpolar solvent

Anti-biofouling implantable catheter using thin-film magnetic microactuators

Polyelectrolyte-grafted Ti₃C₂-MXenes stable in extreme salinity aquatic conditions for remediation of contaminated subsurface environments

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Hyunsu Park

Facile fabrication of flexible glutamate biosensor using direct writing of platinum nanoparticle-based nanocomposite ink

Electrochemical Evaluations of Fractal Microelectrodes for Energy Efficient Neurostimulation

Stable colloidal dispersion of octylated Ti3C2-MXenes in a nonpolar solvent

Anti-biofouling implantable catheter using thin-film magnetic microactuators

Polyelectrolyte-grafted Ti3C2-MXenes stable in extreme salinity aquatic conditions for remediation of contaminated subsurface environments

Contact Info

Product

Resources

About

Polyelectrolyte-grafted Ti₃C₂-MXenes stable in extreme salinity aquatic conditions for remediation of contaminated subsurface environments