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Allyl triphenyl phosphonium bromide, an ionic liquid as an eco-friendly and green inhibitor for corrosion of aluminium in hydrochloric acid: Mechanistic insights and experimental validation

Mansi Chaudhary, Meenakshi Gupta, Prerna Bansal, Yudhvir S. Sharma, Neelu Dheer, Arun Kant, M. Ramananda Singh, Shramila Yadav

2025Sustainable Chemistry for the Environment9 citationsDOIOpen Access PDF

Abstract

Allyl Triphenyl Phosphonium Bromide (ATPB), an ionic liquid was used as an inhibitor for mitigation of corrosion of aluminium in a 0.5 M hydrochloric acid. The mitigating properties of Allyl Triphenyl Phosphonium Bromide was experimentally evaluated through gravimetric, potentiodynamic polarization and electrochemical impedance techniques. The highest inhibition efficiency of 99.95% was achieved at 308 K. The mitigation of corrosion was caused by the spontaneous assembly of an ATPB monolayer onto the aluminium surface. As the concentration of ATPB rises, the extent of adsorption also increases. The accumulation of ATPB molecules over aluminium surface obeys the Langmuir adsorption isotherm. The strength of adsorption is also enhanced through the electrostatic interaction of bromide anion with the surface of aluminium. The enhancement of charge transfer resistance (R ct ) values on addition of ATPB in electrochemical impedance spectroscopic studies in comparison over the R ct value in HCl without ATPB reveals that charge transfer mechanism is involved in the inhibition process. The decrease in double layer capacitance (C dl ) also occurred along with an increase in concentrations. This suggests, the adsorption is the key to the inhibition of corrosion of aluminium. SEM micrograms and EDXS confirmed the presence of a protective ATPB layer on the aluminium surface. Density functional theory (DFT) calculation also supports the experimental observation. • ATPB is an effective inhibitor with its efficiency ranging from 99% to 60% at various concentrations. • ATPB prevents corrosion of aluminium via two possible mechanisms – one by obstructing the accessible surface area and other due to the synergistic effect provided by the counter bromide ions (Br - ). • The adsorption of ATPB on the surface of aluminium follows Langmuir Adsorption Isotherm. • The efficiencies evaluated from impedance measurements are in sync with the same provided from gravimetric and potentiodynamic studies. • The scanning electron microscopic images support the results obtained from other experimental studies. The EDXS also suggest that the mechanism of inhibition is via the adsorption of ATPB molecules on the surface of Aluminium. • Computational examinations also indicate that ATPB effectively mitigates corrosion coordinating the exchange of electrons with the metal surface.

Topics & Concepts

PhosphoniumIonic liquidBromideHydrochloric acidAluminiumCorrosion inhibitorChemistryEnvironmentally friendlyCorrosionInorganic chemistryNuclear chemistryOrganic chemistryCatalysisBiologyEcologyIonic liquids properties and applicationsChemical Synthesis and ReactionsMagnesium Oxide Properties and Applications
Allyl triphenyl phosphonium bromide, an ionic liquid as an eco-friendly and green inhibitor for corrosion of aluminium in hydrochloric acid: Mechanistic insights and experimental validation | Litcius