Influence of decyl glucoside on the electrodeposition of tin

The aim of the present study was to improve an electrochemical deposition bath for tin coating an acidic sulphate medium by addition of decyl glucoside. The effects of this additve on the deposition kinetics were examined by electrochemical methods, namely voltammetry and galvanostatic tin-layer for...

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Main Authors: Charrouf Mohamed, Bakkali Said, Cherkaoui Mohammed, Amrani Mahassin EL.
Format: Article
Language:English
Published: Serbian Chemical Society 2006-01-01
Series:Journal of the Serbian Chemical Society
Subjects:
tin
Online Access:http://www.doiserbia.nb.rs/img/doi/0352-5139/2006/0352-51390606661C.pdf
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spelling doaj-8c4954e7882843bcb0fdcee3c4aaf9642020-12-24T14:30:36ZengSerbian Chemical Society Journal of the Serbian Chemical Society0352-51391820-74212006-01-0171666166810.2298/JSC0606661C0352-51390606661CInfluence of decyl glucoside on the electrodeposition of tinCharrouf Mohamed0Bakkali Said1Cherkaoui Mohammed2Amrani Mahassin EL.3Laboratory d'électrochimie et de traitement de surface (LETS), Faculté des Sciences, Université Ibn-Tofail, KénitraLaboratory d'électrochimie et de traitement de surface (LETS), Faculté des Sciences, Université Ibn-Tofail, KénitraLaboratory d'électrochimie et de traitement de surface (LETS), Faculté des Sciences, Université Ibn-Tofail, KénitraLaboratoire des procédés de séparation, Faculté des Sciences, Université Ibn-Tofail, KénitraThe aim of the present study was to improve an electrochemical deposition bath for tin coating an acidic sulphate medium by addition of decyl glucoside. The effects of this additve on the deposition kinetics were examined by electrochemical methods, namely voltammetry and galvanostatic tin-layer formation, while scanning electron microscopy and X-ray diffraction analysis allowed the determination of the morphological and structural modifications resulting from the addition of this new surface active agent. The presence of the examined additive induced an increase of the activation energy and of the overvoltage of the reduction of stannous ions. From the morphological point of view, a marked decrease in the grain size of the deposit was achieved in the presence of the additive. The preferential crystal growth axes was also changed from Sn (200) without additive to Sn (112) with the additive.http://www.doiserbia.nb.rs/img/doi/0352-5139/2006/0352-51390606661C.pdftinelectrodepositiondecyl glucosidevoltammetryx-ray diffractionscanning electron microscopy
collection DOAJ
language English
format Article
sources DOAJ
author Charrouf Mohamed
Bakkali Said
Cherkaoui Mohammed
Amrani Mahassin EL.
spellingShingle Charrouf Mohamed
Bakkali Said
Cherkaoui Mohammed
Amrani Mahassin EL.
Influence of decyl glucoside on the electrodeposition of tin
Journal of the Serbian Chemical Society
tin
electrodeposition
decyl glucoside
voltammetry
x-ray diffraction
scanning electron microscopy
author_facet Charrouf Mohamed
Bakkali Said
Cherkaoui Mohammed
Amrani Mahassin EL.
author_sort Charrouf Mohamed
title Influence of decyl glucoside on the electrodeposition of tin
title_short Influence of decyl glucoside on the electrodeposition of tin
title_full Influence of decyl glucoside on the electrodeposition of tin
title_fullStr Influence of decyl glucoside on the electrodeposition of tin
title_full_unstemmed Influence of decyl glucoside on the electrodeposition of tin
title_sort influence of decyl glucoside on the electrodeposition of tin
publisher Serbian Chemical Society
series Journal of the Serbian Chemical Society
issn 0352-5139
1820-7421
publishDate 2006-01-01
description The aim of the present study was to improve an electrochemical deposition bath for tin coating an acidic sulphate medium by addition of decyl glucoside. The effects of this additve on the deposition kinetics were examined by electrochemical methods, namely voltammetry and galvanostatic tin-layer formation, while scanning electron microscopy and X-ray diffraction analysis allowed the determination of the morphological and structural modifications resulting from the addition of this new surface active agent. The presence of the examined additive induced an increase of the activation energy and of the overvoltage of the reduction of stannous ions. From the morphological point of view, a marked decrease in the grain size of the deposit was achieved in the presence of the additive. The preferential crystal growth axes was also changed from Sn (200) without additive to Sn (112) with the additive.
topic tin
electrodeposition
decyl glucoside
voltammetry
x-ray diffraction
scanning electron microscopy
url http://www.doiserbia.nb.rs/img/doi/0352-5139/2006/0352-51390606661C.pdf
work_keys_str_mv AT charroufmohamed influenceofdecylglucosideontheelectrodepositionoftin
AT bakkalisaid influenceofdecylglucosideontheelectrodepositionoftin
AT cherkaouimohammed influenceofdecylglucosideontheelectrodepositionoftin
AT amranimahassinel influenceofdecylglucosideontheelectrodepositionoftin
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