Lo Gorton
Lo Gorton
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Direct electron transfer between copper-containing proteins and electrodes
S Shleev, J Tkac, A Christenson, T Ruzgas, AI Yaropolov, JW Whittaker, ...
Biosensors and Bioelectronics 20 (12), 2517-2554, 2005
Carbon paste electrodes modified with enzymes, tissues, and cells
L Gorton
Electroanalysis 7 (1), 23-45, 1995
Peroxidase-modified electrodes: fundamentals and application
T Ruzgas, E Csöregi, J Emnéus, L Gorton, G Marko-Varga
Analytica Chimica Acta 330 (2-3), 123-138, 1996
Direct electron transfer between heme-containing enzymes and electrodes as basis for third generation biosensors
L Gorton, A Lindgren, T Larsson, FD Munteanu, T Ruzgas, I Gazaryan
Analytica Chimica Acta 400 (1-3), 91-108, 1999
Selective detection in flow analysis based on the combination of immobilized enzymes and chemically modified electrodes
L Gorton, E Csöregi, E Dominguez, J Emnéus, G Jönsson-Pettersson, ...
Analytica Chimica Acta 250, 203-248, 1991
Amperometric biosensor for glutamate using Prussian blue-based “artificial peroxidase” as a transducer for hydrogen peroxide
AA Karyakin, EE Karyakina, L Gorton
Analytical chemistry 72 (7), 1720-1723, 2000
Amperometric biosensors based on an apparent direct electron transfer between electrodes and immobilized peroxidases. Plenary lecture
L Gorton, G Jönsson-Pettersson, E Csöregi, K Johansson, E Domínguez, ...
Analyst 117 (8), 1235-1241, 1992
Chemically modified electrodes for the electrocatalytic oxidation of nicotinamide coenzymes
L Gorton
Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry …, 1986
Beyond graphene: Electrochemical sensors and biosensors for biomarkers detection
P Bollella, G Fusco, C Tortolini, G Sanzò, G Favero, L Gorton, R Antiochia
Biosensors and Bioelectronics 89, 152-166, 2017
An electrochemical sensor for hydrogen peroxide based on peroxidase adsorbed on a spectrographic graphite electrode
G Jönsson, L Gorton
Electroanalysis 1 (5), 465-468, 1989
Electrocatalytic oxidation of reduced nicotinamide coenzymes by graphite electrodes modified with an adsorbed phenoxazinium salt, meldola blue
L Gorton, A Torstensson, H Jaegfeldt, G Johansson
Journal of electroanalytical chemistry and interfacial electrochemistry 161 …, 1984
On the mechanism of H2O2 reduction at Prussian Blue modified electrodes
AA Karyakin, EE Karyakina, L Gorton
Electrochemistry Communications 1 (2), 78-82, 1999
Amperometric glucose sensors based on immobilized glucose-oxidizing enzymes and chemically modified electrodes
L Gorton, G Bremle, E Csöregi, G Jönsson-Pettersson, B Persson
Analytica Chimica Acta 249 (1), 43-54, 1991
An amperometric glucose sensor made by modification of a graphite electrode surface with immobilized glucose oxidase and adsorbed mediator
G Jönsson, L Gorton
Biosensors 1 (4), 355-368, 1985
Enzyme electrodes and their application
F Scheller, D Kirstein, L Kirstein, F Schubert, U Wollenberger, B Ollson, ...
Philosophical Transactions of the Royal Society of London. B, Biological …, 1987
Electrocatalytic oxidation of NAD (P) H at mediator-modified electrodes
L Gorton, E Domı́nguez
Reviews in Molecular Biotechnology 82 (4), 371-392, 2002
Characterisation of the substituent distribution in starch and cellulose derivatives
S Richardson, L Gorton
Analytica Chimica Acta 497 (1-2), 27-65, 2003
Enzymatic determination of glucose in a flow system by catalytic oxidation of the nicotinamide coenzyme at a modified electrode
R Appelqvist, G Marko-Varga, L Gorton, A Torstensson, G Johansson
Analytica Chimica Acta 169, 237-247, 1985
On-line glucose monitoring by using microdialysis sampling and amperometric detection based on ‘wired’glucose oxidase in carbon paste
E Csöregi, T Laurell, I Katakis, A Heller, L Gorton
Microchimica Acta 121, 31-40, 1995
Kinetic models of horseradish peroxidase action on a graphite electrode
T Ruzgas, L Gorton, J Emnéus, G Marko-Varga
Journal of Electroanalytical Chemistry 391 (1-2), 41-49, 1995
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