Standard

Three-component working electrode micron-sized Ag particles/tiO2 layer/Ti : Template electrochemical synthesis and potential use as electrochemical sensor for glutathione detection. / Arbenin, A. Yu; Zemtsova, E. G.; Ermakov, S. S.; Gaskov, A. M.; Baburova, P. I.; Sokolova, D. N.; Yaroshenko, S. V.; Smirnov, V. M.

в: Materials Research Express, Том 7, № 3, 035401, 03.2020.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Arbenin, AY, Zemtsova, EG, Ermakov, SS, Gaskov, AM, Baburova, PI, Sokolova, DN, Yaroshenko, SV & Smirnov, VM 2020, 'Three-component working electrode micron-sized Ag particles/tiO2 layer/Ti: Template electrochemical synthesis and potential use as electrochemical sensor for glutathione detection', Materials Research Express, Том. 7, № 3, 035401. https://doi.org/10.1088/2053-1591/ab77ef

APA

Arbenin, A. Y., Zemtsova, E. G., Ermakov, S. S., Gaskov, A. M., Baburova, P. I., Sokolova, D. N., Yaroshenko, S. V., & Smirnov, V. M. (2020). Three-component working electrode micron-sized Ag particles/tiO2 layer/Ti: Template electrochemical synthesis and potential use as electrochemical sensor for glutathione detection. Materials Research Express, 7(3), [035401]. https://doi.org/10.1088/2053-1591/ab77ef

Vancouver

Arbenin AY, Zemtsova EG, Ermakov SS, Gaskov AM, Baburova PI, Sokolova DN и пр. Three-component working electrode micron-sized Ag particles/tiO2 layer/Ti: Template electrochemical synthesis and potential use as electrochemical sensor for glutathione detection. Materials Research Express. 2020 Март;7(3). 035401. https://doi.org/10.1088/2053-1591/ab77ef

Author

Arbenin, A. Yu ; Zemtsova, E. G. ; Ermakov, S. S. ; Gaskov, A. M. ; Baburova, P. I. ; Sokolova, D. N. ; Yaroshenko, S. V. ; Smirnov, V. M. / Three-component working electrode micron-sized Ag particles/tiO2 layer/Ti : Template electrochemical synthesis and potential use as electrochemical sensor for glutathione detection. в: Materials Research Express. 2020 ; Том 7, № 3.

BibTeX

@article{f163821d7b0d4037a14a54b5586c9275,
title = "Three-component working electrode micron-sized Ag particles/tiO2 layer/Ti: Template electrochemical synthesis and potential use as electrochemical sensor for glutathione detection",
abstract = "In the present work the possibility is considered of a chemical sensor synthesis for quantitative glutathione (GSH) determination. Sensor is based on a composite working electrode containing an array of micron-sized Ag particles immobilized on a conductive substrate (Ti) coated by dielectric TiO2 film. To determine GSH in biological fluids, particularly, in saliva, electrochemical silver-based sensors can be used, since such sensors contain -SH group. With the use of cyclic voltammetry (CV) with a composite working electrode containing an Ag microparticles array, the threshold of quantitative GSH determination is reduced to nM level. Since other modern analogues are inferior at least one order of magnitude in the limit of quantitative GSH detection, we assume that the proposed sensor may be of great interest for clinical diagnosis.",
keywords = "biological liquid, chemical sensor, clinical diagnostics, composite electrode, glutathione, titanium-silver-TiO film, titanium-silver-TiO2 film, HEALTH, SALIVARY",
author = "Arbenin, {A. Yu} and Zemtsova, {E. G.} and Ermakov, {S. S.} and Gaskov, {A. M.} and Baburova, {P. I.} and Sokolova, {D. N.} and Yaroshenko, {S. V.} and Smirnov, {V. M.}",
year = "2020",
month = mar,
doi = "10.1088/2053-1591/ab77ef",
language = "English",
volume = "7",
journal = "Materials Research Express",
issn = "2053-1591",
publisher = "IOP Publishing Ltd.",
number = "3",

}

RIS

TY - JOUR

T1 - Three-component working electrode micron-sized Ag particles/tiO2 layer/Ti

T2 - Template electrochemical synthesis and potential use as electrochemical sensor for glutathione detection

AU - Arbenin, A. Yu

AU - Zemtsova, E. G.

AU - Ermakov, S. S.

AU - Gaskov, A. M.

AU - Baburova, P. I.

AU - Sokolova, D. N.

AU - Yaroshenko, S. V.

AU - Smirnov, V. M.

PY - 2020/3

Y1 - 2020/3

N2 - In the present work the possibility is considered of a chemical sensor synthesis for quantitative glutathione (GSH) determination. Sensor is based on a composite working electrode containing an array of micron-sized Ag particles immobilized on a conductive substrate (Ti) coated by dielectric TiO2 film. To determine GSH in biological fluids, particularly, in saliva, electrochemical silver-based sensors can be used, since such sensors contain -SH group. With the use of cyclic voltammetry (CV) with a composite working electrode containing an Ag microparticles array, the threshold of quantitative GSH determination is reduced to nM level. Since other modern analogues are inferior at least one order of magnitude in the limit of quantitative GSH detection, we assume that the proposed sensor may be of great interest for clinical diagnosis.

AB - In the present work the possibility is considered of a chemical sensor synthesis for quantitative glutathione (GSH) determination. Sensor is based on a composite working electrode containing an array of micron-sized Ag particles immobilized on a conductive substrate (Ti) coated by dielectric TiO2 film. To determine GSH in biological fluids, particularly, in saliva, electrochemical silver-based sensors can be used, since such sensors contain -SH group. With the use of cyclic voltammetry (CV) with a composite working electrode containing an Ag microparticles array, the threshold of quantitative GSH determination is reduced to nM level. Since other modern analogues are inferior at least one order of magnitude in the limit of quantitative GSH detection, we assume that the proposed sensor may be of great interest for clinical diagnosis.

KW - biological liquid

KW - chemical sensor

KW - clinical diagnostics

KW - composite electrode

KW - glutathione

KW - titanium-silver-TiO film

KW - titanium-silver-TiO2 film

KW - HEALTH

KW - SALIVARY

UR - http://www.scopus.com/inward/record.url?scp=85081736822&partnerID=8YFLogxK

U2 - 10.1088/2053-1591/ab77ef

DO - 10.1088/2053-1591/ab77ef

M3 - Article

AN - SCOPUS:85081736822

VL - 7

JO - Materials Research Express

JF - Materials Research Express

SN - 2053-1591

IS - 3

M1 - 035401

ER -

ID: 52610464