Facile synthesis of Tb-decorated graphene oxide: electrochemical stability, hydrogen storage, and corrosion inhibition of Mg AZ13 alloy in 3.5% NaCl medium

Palaniappan Nagarajan; Ivan S Cole; Aleksey Kuznetsov; Sivakumar Manickam

doi:10.1039/d0ra08766a

Facile synthesis of Tb-decorated graphene oxide: electrochemical stability, hydrogen storage, and corrosion inhibition of Mg AZ13 alloy in 3.5% NaCl medium

RSC Adv. 2020 Dec 24;11(2):662-670. doi: 10.1039/d0ra08766a.

Authors

Palaniappan Nagarajan¹, Ivan S Cole², Aleksey Kuznetsov², Sivakumar Manickam³

Affiliations

¹ School of Chemical Sciences Central University of Gujarat India palaniappancecri@rediffmail.com.
² Advanced Manufacturing and Fabrication, School of Engineering, RMIT University Melbourne VIC 3000 Australia.
³ Department of Chemistry, Universidad Técnica Federico Santa Maria Av. Santa Maria 6400 Vitacura Chile.

Abstract

Magnesium alloys have been broadly used due to their lightweight and high ductility. However, they are subject to corrosion which deteriorates their properties. To develop a novel corrosion inhibitor coating for Mg alloys, we performed functionalization of a graphene oxide (GO) matrix with Tb(iii) to improve the electrochemical behaviour and coating stability of a GO and Tb composite on the metal alloys in corrosive medium. The functionalized terbium GO material was characterized by microscopy, spectroscopy, and XRD techniques to confirm the non-covalent interactions on the active surface of the host material. The corrosion inhibition was found to be ca. 80% and electrochemical stability was observed to be high at a voltage of 900 mV. Computational studies also support the potential anti-corrosion applications of this material.