Perpendicular Weak Permanent Magnetic Field Effect on the Electrodeposited Nanostructured ZnO Film and its Kinetic Corrosion Behavior


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Abstract

In this work the effect of the permanent weak magnetic field on the electrodeposited ZnO nanostructured film on the ITO substrate elaborated under –0.5 and –0.8 V was studied. The deposits have been characterized by SEM, EDX, and electrochemical tests. The obtained results showed the increase of crystallites dimension in the presence of magnetic field under –0.5 V, and the decrease of the number of large crystallites of ZnO deposits under potential deposition equal to –0.8 V. The deposition under weak magnetic field change the current deposition, the open circuit potential (OCP), the polarization curve parameters after one week of corrosion and crystallographic parameters.

About the authors

Samia Taleb

Research Unit, Materials, Processing and Environment, University M’Hamed Bougara

Email: zazinacer@yahoo.fr
Algeria, Boumerdes

Nahed Dokhan

Research Unit, Materials, Processing and Environment, University M’Hamed Bougara

Email: zazinacer@yahoo.fr
Algeria, Boumerdes

Nacer Zazi

Laboratoire Mécanique Structure Energétique, Département de Génie Mécanique,
Université Mouloud Mammeri

Author for correspondence.
Email: zazinacer@yahoo.fr
Algeria, TiziOuzou, 15000

Jean-Paul Chopart

LISM EA 4695 UFR SEN, BP1039, Université de Reims Champagne Ardenne, Moulin de la Housse, Cedex

Email: zazinacer@yahoo.fr
France, Reims, 51687

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