Alina Sekretareva
Alina Sekretareva
Department of Chemistry, Uppsala University
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Cited by
Cited by
Cholesterol self-powered biosensor
AN Sekretaryova, V Beni, M Eriksson, AA Karyakin, APF Turner, MY Vagin
Analytical chemistry 86 (19), 9540-9547, 2014
Electrocatalytic currents from single enzyme molecules
AN Sekretaryova, MY Vagin, APF Turner, M Eriksson
Journal of the American Chemical Society 138 (8), 2504-2507, 2016
Bioelectrocatalytic systems for health applications
AN Sekretaryova, M Eriksson, APF Turner
Biotechnology Advances 34 (3), 177-197, 2016
Total phenol analysis of weakly supported water using a laccase-based microband biosensor
AN Sekretaryova, AV Volkov, IV Zozoulenko, APF Turner, MY Vagin, ...
Analytica chimica acta 907, 45-53, 2016
Reagentless biosensor based on glucose oxidase wired by the mediator freely diffusing in enzyme containing membrane
AN Sekretaryova, DV Vokhmyanina, TO Chulanova, EE Karyakina, ...
Analytical chemistry 84 (3), 1220-1223, 2012
Unsubstituted phenothiazine as a superior water-insoluble mediator for oxidases
AN Sekretaryova, MY Vagin, V Beni, APF Turner, AA Karyakin
Biosensors and Bioelectronics 53, 275-282, 2014
Monitoring of epitaxial graphene anodization
MY Vagin, AN Sekretaryova, IG Ivanov, A Håkansson, T Iakimov, ...
Electrochimica Acta 238, 91-98, 2017
O2 Reduction to Water by High Potential Multicopper Oxidases: Contributions of the T1 Copper Site Potential and the Local Environment of the Trinuclear Copper …
A Sekretaryova, SM Jones, EI Solomon
Journal of the American Chemical Society 141 (28), 11304-11314, 2019
Colloid electrochemistry of conducting polymer: towards potential-induced in-situ drug release
S Sankoh, MY Vagin, AN Sekretaryova, P Thavarungkul, P Kanatharana, ...
Electrochimica Acta 228, 407-412, 2017
Arrays of screen-printed graphite microband electrodes as a versatile electroanalysis platform
M Vagin, A Sekretareva, R Sanchez, I Lundström, F Winquist, M Eriksson
ChemElectroChem 1 (4), 755-762, 2014
Wearable Bioelectronics
APF Turner, A Salleo, O Parlak
Elsevier, 2019
Evaluation of the electrochemically active surface area of microelectrodes by capacitive and faradaic currents
A Sekretareva, M Vagin, A Volkov, I Zozoulenko, M Eriksson
ChemElectroChem 6 (17), 4411-4417, 2019
Correspondence on “Can Nanoimpacts Detect Single-Enzyme Activity? Theoretical Considerations and an Experimental Study of Catalase Impacts”
AN Sekretaryova, MY Vagin, APF Turner, M Eriksson
Acs Catalysis 7 (5), 3591-3593, 2017
Characterization of a putative sensory [FeFe]-hydrogenase provides new insight into the role of the active site architecture
H Land, A Sekretareva, P Huang, HJ Redman, B Németh, N Polidori, ...
Chemical Science 11 (47), 12789-12801, 2020
Powering wearable bioelectronic devices
A Sekretaryova
Wearable Bioelectronics, 89-132, 2020
Correction to “Electrocatalytic Currents from Single Enzyme Molecules”
AN Sekretaryova, MY Vagin, APF Turner, M Eriksson
Journal of the American Chemical Society 139 (3), 1344-1344, 2017
Bioelectrocatalysis on anodized epitaxial graphene and conventional graphitic interfaces
M Vagin, A Sekretareva, A Håkansson, T Iakimov, IG Ivanov, M Syväjärvi, ...
ChemElectroChem 6 (14), 3791-3796, 2019
Novel reagentless electrodes for biosensing
A Sekretaryova
Linköping University Electronic Press, 2014
Single-Entity Electrochemistry of Collision in Sensing Applications
A Sekretareva
Sensors and Actuators Reports, 100037, 2021
Collision-based electrochemistry for investigation of direct electron transfer of a single enzyme molecule
AN Sekretaryova, MY Vagin, APF Turner, M Eriksson
Procedia technology 27, 238-239, 2017
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