CONTROL OF THE PROPERTIES OF TRANSPARENT CONDUCTING OXIDES DEPENDING ON THE SOLUTION PARAMETERS

Background. Traditional methods of synthesis of transparent conducting oxides-a promising material for opto-and semiconductor devices and devices-have serious disadvantages due to the use of vacuum and high production costs. The aim of the work is to study the effect of the solution parameters on...

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Autores principales: T.O. Zinchenko, E.A. Pecherskaya, V.I. Kondrashin, V.S. Aleksandrov, G.V. Kozlov, A.I. Levin
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Publicado: Penza State University Publishing House 2021
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Acceso en línea:https://doaj.org/article/aa56e3dade2940f0b3e1c1f96e2d1e56
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spelling oai:doaj.org-article:aa56e3dade2940f0b3e1c1f96e2d1e562021-11-24T10:43:38ZCONTROL OF THE PROPERTIES OF TRANSPARENT CONDUCTING OXIDES DEPENDING ON THE SOLUTION PARAMETERS10.21685/2307-5538-2021-3-82307-5538https://doaj.org/article/aa56e3dade2940f0b3e1c1f96e2d1e562021-11-01T00:00:00Zhttps://doaj.org/toc/2307-5538Background. Traditional methods of synthesis of transparent conducting oxides-a promising material for opto-and semiconductor devices and devices-have serious disadvantages due to the use of vacuum and high production costs. The aim of the work is to study the effect of the solution parameters on the properties of transparent conducting oxides when using the spray-pyrolysis method, which eliminates these disadvantages. Materials and methods. As a material for the production of transparent conducting oxides, tin oxide doped with antimony is selected, which has the following advantages:chemical inertia, stability at high temperatures and in atmospheric conditions, sufficiently high transparency and conductivity. The coating was synthesized by spray pyrolysis, which eliminates the disadvantages of other methods that require a vacuum, and therefore have a high production cost. Results. The influence of the solution volume, impurity concentration, and precursor concentration on the properties of transparent conductive coatings (surface resistance, specific conductivity, carrier concentration, and free path length) is studied. Conclusions. As a result of the study of the synthesized samples, it is shown that with an increase in the volume of the solution, a decrease in the surface resistance and an increase in the specific conductivity are observed. It is determined that the optimal concentration of the precursor SnCl4•5H2O to achieve the minimum surface resistance of samples coated with SnO2 is 0,25 mol/l.T.O. ZinchenkoE.A. PecherskayaV.I. KondrashinV.S. AleksandrovG.V. KozlovA.I. LevinPenza State University Publishing Housearticlepyrolysis spraytransparent conductive oxideprecursorimpuritysolution volumesurface resistanceEngineering (General). Civil engineering (General)TA1-2040ENRUИзмерение, мониторинг, управление, контроль, Iss 3 (2021)
institution DOAJ
collection DOAJ
language EN
RU
topic pyrolysis spray
transparent conductive oxide
precursor
impurity
solution volume
surface resistance
Engineering (General). Civil engineering (General)
TA1-2040
spellingShingle pyrolysis spray
transparent conductive oxide
precursor
impurity
solution volume
surface resistance
Engineering (General). Civil engineering (General)
TA1-2040
T.O. Zinchenko
E.A. Pecherskaya
V.I. Kondrashin
V.S. Aleksandrov
G.V. Kozlov
A.I. Levin
CONTROL OF THE PROPERTIES OF TRANSPARENT CONDUCTING OXIDES DEPENDING ON THE SOLUTION PARAMETERS
description Background. Traditional methods of synthesis of transparent conducting oxides-a promising material for opto-and semiconductor devices and devices-have serious disadvantages due to the use of vacuum and high production costs. The aim of the work is to study the effect of the solution parameters on the properties of transparent conducting oxides when using the spray-pyrolysis method, which eliminates these disadvantages. Materials and methods. As a material for the production of transparent conducting oxides, tin oxide doped with antimony is selected, which has the following advantages:chemical inertia, stability at high temperatures and in atmospheric conditions, sufficiently high transparency and conductivity. The coating was synthesized by spray pyrolysis, which eliminates the disadvantages of other methods that require a vacuum, and therefore have a high production cost. Results. The influence of the solution volume, impurity concentration, and precursor concentration on the properties of transparent conductive coatings (surface resistance, specific conductivity, carrier concentration, and free path length) is studied. Conclusions. As a result of the study of the synthesized samples, it is shown that with an increase in the volume of the solution, a decrease in the surface resistance and an increase in the specific conductivity are observed. It is determined that the optimal concentration of the precursor SnCl4•5H2O to achieve the minimum surface resistance of samples coated with SnO2 is 0,25 mol/l.
format article
author T.O. Zinchenko
E.A. Pecherskaya
V.I. Kondrashin
V.S. Aleksandrov
G.V. Kozlov
A.I. Levin
author_facet T.O. Zinchenko
E.A. Pecherskaya
V.I. Kondrashin
V.S. Aleksandrov
G.V. Kozlov
A.I. Levin
author_sort T.O. Zinchenko
title CONTROL OF THE PROPERTIES OF TRANSPARENT CONDUCTING OXIDES DEPENDING ON THE SOLUTION PARAMETERS
title_short CONTROL OF THE PROPERTIES OF TRANSPARENT CONDUCTING OXIDES DEPENDING ON THE SOLUTION PARAMETERS
title_full CONTROL OF THE PROPERTIES OF TRANSPARENT CONDUCTING OXIDES DEPENDING ON THE SOLUTION PARAMETERS
title_fullStr CONTROL OF THE PROPERTIES OF TRANSPARENT CONDUCTING OXIDES DEPENDING ON THE SOLUTION PARAMETERS
title_full_unstemmed CONTROL OF THE PROPERTIES OF TRANSPARENT CONDUCTING OXIDES DEPENDING ON THE SOLUTION PARAMETERS
title_sort control of the properties of transparent conducting oxides depending on the solution parameters
publisher Penza State University Publishing House
publishDate 2021
url https://doaj.org/article/aa56e3dade2940f0b3e1c1f96e2d1e56
work_keys_str_mv AT tozinchenko controlofthepropertiesoftransparentconductingoxidesdependingonthesolutionparameters
AT eapecherskaya controlofthepropertiesoftransparentconductingoxidesdependingonthesolutionparameters
AT vikondrashin controlofthepropertiesoftransparentconductingoxidesdependingonthesolutionparameters
AT vsaleksandrov controlofthepropertiesoftransparentconductingoxidesdependingonthesolutionparameters
AT gvkozlov controlofthepropertiesoftransparentconductingoxidesdependingonthesolutionparameters
AT ailevin controlofthepropertiesoftransparentconductingoxidesdependingonthesolutionparameters
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