Sergey Shleev
Sergey Shleev
Malmö University
Verified email at - Homepage
Cited by
Cited by
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
Laccase-mediator systems and their applications: a review
OV Morozova, GP Shumakovich, SV Shleev, YI Yaropolov
Applied Biochemistry and Microbiology 43, 523-535, 2007
“Blue” laccases
OV Morozova, GP Shumakovich, MA Gorbacheva, SV Shleev, ...
Biochemistry (Moscow) 72, 1136-1150, 2007
Direct electron transfer based enzymatic fuel cells
M Falk, Z Blum, S Shleev
Electrochimica Acta 82, 191-202, 2012
Direct electron transfer reactions of laccases from different origins on carbon electrodes
S Shleev, A Jarosz-Wilkolazka, A Khalunina, O Morozova, A Yaropolov, ...
Bioelectrochemistry 67 (1), 115-124, 2005
Comparison of physico-chemical characteristics of four laccases from different basidiomycetes
SV Shleev, OV Morozova, OV Nikitina, ES Gorshina, TV Rusinova, ...
Biochimie 86 (9-10), 693-703, 2004
Biofuel cell as a power source for electronic contact lenses
M Falk, V Andoralov, Z Blum, J Sotres, DB Suyatin, T Ruzgas, T Arnebrant, ...
Biosensors and Bioelectronics 37 (1), 38-45, 2012
Challenges for successful implantation of biofuel cells
A Zebda, JP Alcaraz, P Vadgama, S Shleev, SD Minteer, F Boucher, ...
Bioelectrochemistry 124, 57-72, 2018
Electrochemical redox transformations of T1 and T2 copper sites in native Trametes hirsuta laccase at gold electrode
S Shleev, A Christenson, V Serezhenkov, D Burbaev, A Yaropolov, ...
Biochemical Journal 385 (3), 745-754, 2005
Gold nanoparticles as electronic bridges for laccase-based biocathodes
C Gutiérrez-Sánchez, M Pita, C Vaz-Domínguez, S Shleev, AL De Lacey
Journal of the American Chemical Society 134 (41), 17212-17220, 2012
Mediatorless sugar/oxygen enzymatic fuel cells based on gold nanoparticle-modified electrodes
X Wang, M Falk, R Ortiz, H Matsumura, J Bobacka, R Ludwig, M Bergelin, ...
Biosensors and Bioelectronics 31 (1), 219-225, 2012
A direct electron transfer‐based glucose/oxygen biofuel cell operating in human serum
V Coman, R Ludwig, W Harreither, D Haltrich, L Gorton, T Ruzgas, ...
Fuel cells 10 (1), 9-16, 2010
Laccase-catalyzed synthesis of conducting polyaniline
AV Karamyshev, SV Shleev, OV Koroleva, AI Yaropolov, IY Sakharov
Enzyme and Microbial Technology 33 (5), 556-564, 2003
Laccase electrode for direct electrocatalytic reduction of O2 to H2O with high-operational stability and resistance to chloride inhibition
C Vaz-Dominguez, S Campuzano, O Rüdiger, M Pita, M Gorbacheva, ...
Biosensors and Bioelectronics 24 (4), 531-537, 2008
Miniature biofuel cell as a potential power source for glucose-sensing contact lenses
M Falk, V Andoralov, M Silow, MD Toscano, S Shleev
Analytical chemistry 85 (13), 6342-6348, 2013
Direct electron transfer from graphite and functionalized gold electrodes to T1 and T2/T3 copper centers of bilirubin oxidase
P Ramírez, N Mano, R Andreu, T Ruzgas, A Heller, L Gorton, S Shleev
Biochimica et Biophysica Acta (BBA)-Bioenergetics 1777 (10), 1364-1369, 2008
Direct electron transfer between ligninolytic redox enzymes and electrodes
A Christenson, N Dimcheva, EE Ferapontova, L Gorton, T Ruzgas, ...
Electroanalysis: An International Journal Devoted to Fundamental and …, 2004
Redox potentials of the blue copper sites of bilirubin oxidases
A Christenson, S Shleev, N Mano, A Heller, L Gorton
Biochimica et Biophysica Acta (BBA)-Bioenergetics 1757 (12), 1634-1641, 2006
Direct heterogeneous electron transfer reactions of bilirubin oxidase at a spectrographic graphite electrode
S Shleev, A El Kasmi, T Ruzgas, L Gorton
Electrochemistry communications 6 (9), 934-939, 2004
A membrane-, mediator-, cofactor-less glucose/oxygen biofuel cell
V Coman, C Vaz-Domínguez, R Ludwig, W Harreither, D Haltrich, ...
Physical Chemistry Chemical Physics 10 (40), 6093-6096, 2008
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