Dmitry Pankratov
Dmitry Pankratov
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Cited by
Tear based bioelectronics
D Pankratov, E Gonzßlez‐Arribas, Z Blum, S Shleev
Electroanalysis 28 (6), 1250-1266, 2016
Self‐charging electrochemical biocapacitor
D Pankratov, Z Blum, DB Suyatin, VO Popov, S Shleev
ChemElectroChem 1 (2), 343-346, 2014
Enzymatic synthesis of polyaniline/multi-walled carbon nanotube composite with core shell structure and its electrochemical characterization for supercapacitor application
G Otrokhov, D Pankratov, G Shumakovich, M Khlupova, Y Zeifman, ...
Electrochimica Acta 123, 151-157, 2014
A hybrid electric power device for simultaneous generation and storage of electric energy
D Pankratov, P Falkman, Z Blum, S Shleev
Energy & Environmental Science 7 (3), 989-993, 2014
Hybrid electric power biodevices
D Pankratov, Z Blum, S Shleev
ChemElectroChem 1 (11), 1798-1807, 2014
Supercapacitive photo‐bioanodes and biosolar cells: a novel approach for solar energy harnessing
G Pankratova, D Pankratov, K Hasan, HE ┼kerlund, P┼ Albertsson, ...
Advanced Energy Materials 7 (12), 1602285, 2017
Laccase-mediated synthesis of conducting polyaniline
G Shumakovich, V Kurova, I Vasil’eva, D Pankratov, G Otrokhov, ...
Journal of Molecular Catalysis B: Enzymatic 77, 105-110, 2012
A Nernstian biosupercapacitor
D Pankratov, F Conzuelo, P Pinyou, S Alsaoub, W Schuhmann, S Shleev
Angewandte Chemie International Edition 55 (49), 15434-15438, 2016
Interfacial behavior and activity of laccase and bilirubin oxidase on bare gold surfaces
D Pankratov, J Sotres, A Barrantes, T Arnebrant, S Shleev
Langmuir 30 (10), 2943-2951, 2014
Miniature direct electron transfer based enzymatic fuel cell operating in human sweat and saliva
M Falk, D Pankratov, L Lindh, T Arnebrant, S Shleev
Fuel Cells 14 (6), 1050-1056, 2014
A comparative study of biocathodes based on multiwall carbon nanotube buckypapers modified with three different multicopper oxidases
DV Pankratov, YS Zeifman, OV Morozova, GP Shumakovich, IS Vasil'eva, ...
electroanalysis 25 (5), 1143-1149, 2013
Transparent and flexible, nanostructured and mediatorless glucose/oxygen enzymatic fuel cells
D Pankratov, R Sundberg, J Sotres, I Maximov, M Graczyk, DB Suyatin, ...
Journal of Power Sources 294, 501-506, 2015
Supercapacitive biosolar cell driven by direct electron transfer between photosynthetic membranes and CNT networks with enhanced performance
D Pankratov, G Pankratova, TP Dyachkova, P Falkman, HE ┼kerlund, ...
ACS Energy Letters 2 (11), 2635-2639, 2017
Three-dimensional graphene matrix-supported and thylakoid membrane-based high-performance bioelectrochemical solar cell
G Pankratova, D Pankratov, C Di Bari, A Goñi-Urtiaga, MD Toscano, ...
ACS Applied Energy Materials 1 (2), 319-323, 2018
The influence of nanoparticles on enzymatic bioelectrocatalysis
D Pankratov, R Sundberg, DB Suyatin, J Sotres, A Barrantes, T Ruzgas, ...
RSC advances 4 (72), 38164-38168, 2014
Graphene-conducting polymer nanocomposites for enhancing electrochemical capacitive energy storage
F Shen, D Pankratov, Q Chi
Current Opinion in Electrochemistry 4 (1), 133-144, 2017
Powering electronic contact lenses: Current achievements, challenges, and perspectives
Z Blum, D Pankratov, S Shleev
Expert Review of Ophthalmology 9 (4), 269-273, 2014
Ex vivo electric power generation in human blood using an enzymatic fuel cell in a vein replica
D Pankratov, L Ohlsson, P Gudmundsson, S Halak, L Ljunggren, Z Blum, ...
RSC advances 6 (74), 70215-70220, 2016
Oxygen electroreduction versus bioelectroreduction: direct electron transfer approach
S Shleev, V Andoralov, D Pankratov, M Falk, O Aleksejeva, Z Blum
Electroanalysis 28 (10), 2270-2287, 2016
Miniature direct electron transfer based sulphite/oxygen enzymatic fuel cells
T Zeng, D Pankratov, M Falk, S LeimkŘhler, S Shleev, U Wollenberger
Biosensors and Bioelectronics 66, 39-42, 2015
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