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Imidazole- and mercaptobenzimidazole-derivatives as corrosion inhibitors for Cu, Cu–Zn alloys, and Zn in chloride solution

Chenyang Xie, Ingrid Milošev, Anton Kokalj, P. Bruna, Daniel Crespo

2025Electrochimica Acta9 citationsDOIOpen Access PDF

Abstract

The electrochemical behaviour and surface conditions of Cu, Cu₇₀Zn₃₀ (at%), Cu₃₀Zn₇₀, and Zn in 3 wt% NaCl solution were investigated with and without the addition of 1 mM imidazole- and mercaptobenzimidazole derivatives. In total, seven different inhibitor compounds were considered. Polarization resistance and electrochemical impedance values at 0.01 Hz indicated that the corrosion inhibitor 2-mercapto-5-methoxybenzimidazole performed best on Cu and Cu₇₀Zn₃₀, whereas 5-amino-2-mercaptobenzimidazole was most effective for Zn and Cu₃₀Zn₇₀. The inhibitors significantly increased the polarization resistance and impedance values for the studied metals and alloys, with Cu₇₀Zn₃₀ exhibiting an improvement of nearly two orders of magnitude. Potentiodynamic polarization tests revealed that the inhibitors act as mixed-type inhibitors, primarily affecting anodic reactions. The XPS analysis demonstrated that the efficacy of these inhibitors is closely related to their functional groups: Cu, Cu₇₀Zn₃₀, Cu₃₀Zn₇₀, and Zn benefit from the mercapto group, while the amino group is particularly effective for Zn-rich alloys. DFT adsorption calculations, performed with an implicit aqueous solvent, revealed a strong adsorption affinity of both mercapto and amino groups toward Cu and Zn surfaces, with the amino group exhibiting a more notable interaction than the mercapto group on Zn—consistent with its experimentally observed inhibition effect.

Topics & Concepts

ImidazoleCorrosionChemistryChlorideInorganic chemistryZincNuclear chemistryOrganic chemistryCorrosion Behavior and InhibitionConcrete Corrosion and DurabilityAnodic Oxide Films and Nanostructures
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