Determination of optimal conditions for electrodeposition of Tin(II) in the presence of Alizarin Red S

Determination of optimal conditions for electrodeposition of Tin(II) in the presence of Alizarin Red S

A detailed physicochemical properties of aqueous solutions of alizarin red S − tin (II) chloride, has been thoroughly investigated by extensively exploring the effect of pH, concentration and temperature on the optimal conditions for the formation of tin (II)-alizarin red S (ARS-Sn II) complex. UV-V...

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Main Authors: Nour Mohammad-Sadik Ali, Prince Nana Amaniampong, Ayman Karam
Format: Article
Language:English
Published: Elsevier 2016-12-01
Series:Heliyon
Subjects:
Physical chemistry
Organic chemistry
Materials chemistry
Online Access:http://www.sciencedirect.com/science/article/pii/S240584401631009X
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spelling doaj-7ab2944b8f094ece98b80c8ed2ca41662020-11-25T00:12:00ZengElsevierHeliyon2405-84402016-12-0121210.1016/j.heliyon.2016.e00212Determination of optimal conditions for electrodeposition of Tin(II) in the presence of Alizarin Red SNour Mohammad-Sadik Ali0Prince Nana Amaniampong1Ayman Karam2Laboratory of higher studies in Organic Chemistry, Faculty of Sciences, University of Al-Baath, Homs, SyriaINCREASE (FR CNRS 3707), ENSIP, 1 rue Marcel Doré, TSA41105, 86073 Poitiers Cedex 9, FranceLaboratory of higher studies in Organic Chemistry, Faculty of Sciences, University of Al-Baath, Homs, SyriaA detailed physicochemical properties of aqueous solutions of alizarin red S − tin (II) chloride, has been thoroughly investigated by extensively exploring the effect of pH, concentration and temperature on the optimal conditions for the formation of tin (II)-alizarin red S (ARS-Sn II) complex. UV-Vis spectra, electrical conductivity and pH method were also used to characterize the final product. The stoichiometry of the reaction complex formation was determined via different referential methods. It was observed that, the reaction complex was formed when the concentrations were smaller than a certain limit (10−5 M). Adjusting the pH of the reaction (typically from 3.7 to 6.0) also resulted in the formation of the complex. The formed complex was highly stable in dark conditions (absence of sunlight) and at ambient temperature. Without the use of additives and by employing the investigated optimal conditions (i.e. pH: 5.0, i: 6 mA/cm2, t: 5 min, C: 0.1 M, d: 1.273 × 10−4 cm), electrodeposition of tin (II) was demonstrated to be successful.http://www.sciencedirect.com/science/article/pii/S240584401631009XPhysical chemistryOrganic chemistryMaterials chemistry
collection DOAJ
language English
format Article
sources DOAJ
author Nour Mohammad-Sadik Ali
Prince Nana Amaniampong
Ayman Karam
spellingShingle Nour Mohammad-Sadik Ali
Prince Nana Amaniampong
Ayman Karam
Determination of optimal conditions for electrodeposition of Tin(II) in the presence of Alizarin Red S
Heliyon
Physical chemistry
Organic chemistry
Materials chemistry
author_facet Nour Mohammad-Sadik Ali
Prince Nana Amaniampong
Ayman Karam
author_sort Nour Mohammad-Sadik Ali
title Determination of optimal conditions for electrodeposition of Tin(II) in the presence of Alizarin Red S
title_short Determination of optimal conditions for electrodeposition of Tin(II) in the presence of Alizarin Red S
title_full Determination of optimal conditions for electrodeposition of Tin(II) in the presence of Alizarin Red S
title_fullStr Determination of optimal conditions for electrodeposition of Tin(II) in the presence of Alizarin Red S
title_full_unstemmed Determination of optimal conditions for electrodeposition of Tin(II) in the presence of Alizarin Red S
title_sort determination of optimal conditions for electrodeposition of tin(ii) in the presence of alizarin red s
publisher Elsevier
series Heliyon
issn 2405-8440
publishDate 2016-12-01
description A detailed physicochemical properties of aqueous solutions of alizarin red S − tin (II) chloride, has been thoroughly investigated by extensively exploring the effect of pH, concentration and temperature on the optimal conditions for the formation of tin (II)-alizarin red S (ARS-Sn II) complex. UV-Vis spectra, electrical conductivity and pH method were also used to characterize the final product. The stoichiometry of the reaction complex formation was determined via different referential methods. It was observed that, the reaction complex was formed when the concentrations were smaller than a certain limit (10−5 M). Adjusting the pH of the reaction (typically from 3.7 to 6.0) also resulted in the formation of the complex. The formed complex was highly stable in dark conditions (absence of sunlight) and at ambient temperature. Without the use of additives and by employing the investigated optimal conditions (i.e. pH: 5.0, i: 6 mA/cm2, t: 5 min, C: 0.1 M, d: 1.273 × 10−4 cm), electrodeposition of tin (II) was demonstrated to be successful.
topic Physical chemistry
Organic chemistry
Materials chemistry
url http://www.sciencedirect.com/science/article/pii/S240584401631009X
work_keys_str_mv AT nourmohammadsadikali determinationofoptimalconditionsforelectrodepositionoftiniiinthepresenceofalizarinreds
AT princenanaamaniampong determinationofoptimalconditionsforelectrodepositionoftiniiinthepresenceofalizarinreds
AT aymankaram determinationofoptimalconditionsforelectrodepositionoftiniiinthepresenceofalizarinreds
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