A study of physico-chemical characteristics of electrochromic Ni(OH)2-PVA films on fto glass with different deposition duration

A study of physico-chemical characteristics of electrochromic Ni(OH)2-PVA films on fto glass with different deposition duration

The use of electrochromic elements in “smart” windows leads to significant savings in electricity required for cooling premises. However, the high cost of these devices does not allow the technology to be widely used. Since the cost is determined by costly vacuum deposition methods, the development...

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Autores principales: Valerii Kotok, Vadym Kovalenko, Rovil Nafeev, Volodymyr Verbitskiy, Olena Melnyk, Iryna Plaksiienko, Dmitry Sukhomlyn, Sergey Filonenko, Anatolii Kocherga, Natalia Makarchenko
Formato: article
Lenguaje:EN
RU
UK
Publicado: PC Technology Center 2021
Materias:
electrochromism
electrodeposition
nickel hydroxide
polyvinyl alcohol
deposition duration
coating thickness
adhesion
Technology (General)
T1-995
Industry
HD2321-4730.9
Acceso en línea:https://doaj.org/article/fa7631e2314a4c65929782a3fa3c7664
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spelling oai:doaj.org-article:fa7631e2314a4c65929782a3fa3c76642021-11-04T14:16:48ZA study of physico-chemical characteristics of electrochromic Ni(OH)2-PVA films on fto glass with different deposition duration1729-37741729-406110.15587/1729-4061.2021.242853https://doaj.org/article/fa7631e2314a4c65929782a3fa3c76642021-10-01T00:00:00Zhttp://journals.uran.ua/eejet/article/view/242853https://doaj.org/toc/1729-3774https://doaj.org/toc/1729-4061The use of electrochromic elements in “smart” windows leads to significant savings in electricity required for cooling premises. However, the high cost of these devices does not allow the technology to be widely used. Since the cost is determined by costly vacuum deposition methods, the development of other cheaper methods of deposition of electrochromic element layers is urgent. Aspects of alternative to vacuum formation methods – cathode template electrochemical deposition of composite electrochromic Ni(OH)2-PVA films were investigated. The study is devoted to determining the effect of the duration of deposition of the electrochromic layer on their physicochemical characteristics, in particular, on the optical and electrochemical properties. The deposition was carried out on fluorine-doped tin oxide glasses (FTO glasses). The time of deposition was chosen equal to 5, 10, 20, 40, 60, and 80 minutes. As a result of the experiments, it was shown that the optimal duration of deposition under the selected conditions of the electrochromic layer formation was the interval from 5 to 20 minutes, inclusive. The deposition time of 40 minutes did not improve the optical characteristics of the film. At the same time, with the deposition duration of 60 and 80 minutes, the electrochemical and optical parameters sharply decreased, the coloration depth and irreversibility during bleaching, as well as the specific capacitances of the processes decreased. In the course of data processing, the film thickness was calculated depending on the duration of deposition in several ways. Comparison of the graphs obtained made it possible to determine the approximate amount of polyvinyl alcohol in the electrochromic composite coating, as well as to estimate the current efficiency of the electrodeposition and oxidation-reduction process of the electrochromic material. In this case, the volume of polyvinyl alcohol in the composite was approximately equal to the volume of nickel hydroxide, and the efficiency of Ni(OH)2 deposition and coloration-bleaching processes was approximately 100 %Valerii KotokVadym KovalenkoRovil NafeevVolodymyr VerbitskiyOlena MelnykIryna PlaksiienkoDmitry SukhomlynSergey FilonenkoAnatolii KochergaNatalia MakarchenkoPC Technology Centerarticleelectrochromismelectrodepositionnickel hydroxidepolyvinyl alcoholdeposition durationcoating thicknessadhesionTechnology (General)T1-995IndustryHD2321-4730.9ENRUUKEastern-European Journal of Enterprise Technologies, Vol 5, Iss 12(113), Pp 39-46 (2021)
institution DOAJ
collection DOAJ
language EN
RU
UK
topic electrochromism
electrodeposition
nickel hydroxide
polyvinyl alcohol
deposition duration
coating thickness
adhesion
Technology (General)
T1-995
Industry
HD2321-4730.9
spellingShingle electrochromism
electrodeposition
nickel hydroxide
polyvinyl alcohol
deposition duration
coating thickness
adhesion
Technology (General)
T1-995
Industry
HD2321-4730.9
Valerii Kotok
Vadym Kovalenko
Rovil Nafeev
Volodymyr Verbitskiy
Olena Melnyk
Iryna Plaksiienko
Dmitry Sukhomlyn
Sergey Filonenko
Anatolii Kocherga
Natalia Makarchenko
A study of physico-chemical characteristics of electrochromic Ni(OH)2-PVA films on fto glass with different deposition duration
description The use of electrochromic elements in “smart” windows leads to significant savings in electricity required for cooling premises. However, the high cost of these devices does not allow the technology to be widely used. Since the cost is determined by costly vacuum deposition methods, the development of other cheaper methods of deposition of electrochromic element layers is urgent. Aspects of alternative to vacuum formation methods – cathode template electrochemical deposition of composite electrochromic Ni(OH)2-PVA films were investigated. The study is devoted to determining the effect of the duration of deposition of the electrochromic layer on their physicochemical characteristics, in particular, on the optical and electrochemical properties. The deposition was carried out on fluorine-doped tin oxide glasses (FTO glasses). The time of deposition was chosen equal to 5, 10, 20, 40, 60, and 80 minutes. As a result of the experiments, it was shown that the optimal duration of deposition under the selected conditions of the electrochromic layer formation was the interval from 5 to 20 minutes, inclusive. The deposition time of 40 minutes did not improve the optical characteristics of the film. At the same time, with the deposition duration of 60 and 80 minutes, the electrochemical and optical parameters sharply decreased, the coloration depth and irreversibility during bleaching, as well as the specific capacitances of the processes decreased. In the course of data processing, the film thickness was calculated depending on the duration of deposition in several ways. Comparison of the graphs obtained made it possible to determine the approximate amount of polyvinyl alcohol in the electrochromic composite coating, as well as to estimate the current efficiency of the electrodeposition and oxidation-reduction process of the electrochromic material. In this case, the volume of polyvinyl alcohol in the composite was approximately equal to the volume of nickel hydroxide, and the efficiency of Ni(OH)2 deposition and coloration-bleaching processes was approximately 100 %
format article
author Valerii Kotok
Vadym Kovalenko
Rovil Nafeev
Volodymyr Verbitskiy
Olena Melnyk
Iryna Plaksiienko
Dmitry Sukhomlyn
Sergey Filonenko
Anatolii Kocherga
Natalia Makarchenko
author_facet Valerii Kotok
Vadym Kovalenko
Rovil Nafeev
Volodymyr Verbitskiy
Olena Melnyk
Iryna Plaksiienko
Dmitry Sukhomlyn
Sergey Filonenko
Anatolii Kocherga
Natalia Makarchenko
author_sort Valerii Kotok
title A study of physico-chemical characteristics of electrochromic Ni(OH)2-PVA films on fto glass with different deposition duration
title_short A study of physico-chemical characteristics of electrochromic Ni(OH)2-PVA films on fto glass with different deposition duration
title_full A study of physico-chemical characteristics of electrochromic Ni(OH)2-PVA films on fto glass with different deposition duration
title_fullStr A study of physico-chemical characteristics of electrochromic Ni(OH)2-PVA films on fto glass with different deposition duration
title_full_unstemmed A study of physico-chemical characteristics of electrochromic Ni(OH)2-PVA films on fto glass with different deposition duration
title_sort study of physico-chemical characteristics of electrochromic ni(oh)2-pva films on fto glass with different deposition duration
publisher PC Technology Center
publishDate 2021
url https://doaj.org/article/fa7631e2314a4c65929782a3fa3c7664
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