about
Background Signal as an in Situ Predictor of Dopamine Oxidation Potential: Improving Interpretation of Fast-Scan Cyclic Voltammetry Data.Carbon microelectrodes with a renewable surface.Simultaneous decoupled detection of dopamine and oxygen using pyrolyzed carbon microarrays and fast-scan cyclic voltammetryEnhancing Electrochemical Detection by Scaling Solid State Nanogaps.Microfabricated Collector-Generator Electrode Sensor for Measuring Absolute pH and Oxygen Concentrations.Microfabricated Microelectrode Sensor for Measuring Background and Slowly Changing Dopamine Concentrations.Design and characterization of a microfabricated hydrogen clearance blood flow sensorElectrochemical Dopamine Detection: Comparing Gold and Carbon Fiber Microelectrodes using Background Subtracted Fast Scan Cyclic Voltammetry.Spectroelectrochemical Characterization of the Dynamic Carbon-Fiber Surface in Response to Electrochemical Conditioning.Simultaneous Voltammetric Measurements of Glucose and Dopamine Demonstrate the Coupling of Glucose Availability with Increased Metabolic Demand in the Rat Striatum.In situ electrode calibration strategy for voltammetric measurements in vivo.Statistically significant Raman detection of midsequence single nucleotide polymorphisms.In situ monitoring of adipogenesis with human-adipose-derived stem cells using surface-enhanced Raman spectroscopy.Multiple scan rate voltammetry for selective quantification of real-time enkephalin dynamics.Carbon-Fiber Microbiosensor for Monitoring Rapid Lactate Fluctuations in Brain Tissue Using Fast-Scan Cyclic VoltammetryCharacterization of a Multiple-Scan-Rate Voltammetric Waveform for Real-Time Detection of Met-EnkephalinDrift Subtraction for Fast-Scan Cyclic Voltammetry Using Double-Waveform Partial-Least-Squares Regression
P50
Q31152355-932A1AC5-23B7-4309-BC74-6D70C3C03F38Q33727324-A3EC59A1-CC26-47C5-9959-D1C8A41A69F0Q33756088-C182A3C6-68FE-4495-AF21-B262E8E7D760Q33824283-78796183-E5EE-40EC-8C98-AB9AFC6E625FQ36531466-C04B36B9-FEE8-41FF-8B6A-CC8EEBDA9BEBQ36714418-C92088DC-DB17-4C64-B40D-DE5B676605C3Q36945657-7BF08316-64F6-4DA2-8205-AD70B4868294Q37137918-80523B86-940D-4AC2-9801-70CED6471653Q38675757-53914C40-E187-4F0C-88D9-453BC927EBE0Q39094267-F41D5CBE-F958-409A-9D62-37444BDBAC39Q41979436-55416288-6C7E-4C4E-8C77-223A4664F03CQ43905540-70AF4D67-EBE8-4D18-AD84-93C5D9D4E091Q44859063-364248DB-90B4-404E-B3D3-5BD07650B1F9Q44874368-F7AA1574-4C42-42B5-95BD-8FFDCF0D34BAQ57180216-D60C52DC-E46C-461D-90BC-26B6B8F668E2Q90671091-8AF62269-4661-4FC5-88E3-6AFC0D669530Q91970573-38CF8F49-2079-44DF-A03D-BCA55C60EDA6
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Gregory S McCarty
@en
Gregory S McCarty
@nl
type
label
Gregory S McCarty
@en
Gregory S McCarty
@nl
prefLabel
Gregory S McCarty
@en
Gregory S McCarty
@nl
P31
P496
0000-0002-5259-1194