Abstract
Five novel pyrazolylnucleosides have been evaluated theoretically for their corrosion inhibition efficiency on the Cu(111) surface in acidic media. DFT calculations were carried out to exhibit the intrinsic properties such as lowest unoccupied (ELUMO) and highest occupied (EHOMO) molecular orbital energies, as well as energy gap (∆E), chemical hardness (η), chemical softness (σ), electronegativity (χ), electrophilicity (ω) and nucleophilicity (ε). The theoretical FT-IR spectra were recorded to indicate the presence of the specific bonds in the studied molecules. The surface interactions between the inhibitor molecules and the metal surface were investigated using molecular dynamics simulations and Monte Carlo (MC) simulations. As a result, we have found that the inhibitor pyrazolylnucleosides 5a–e have strong interactions with Cu(111) surface, and therefore have excellent predictive inhibition power against copper corrosion.
Highlights
Five novel pyrazolylnucleosides have been evaluated theoretically for their corrosion inhibition efficiency on the Cu(111) surface in acidic media
The novel pyrazolylnucleosides is pinning as an axis of further study and application in a relevant field to the metallic surface treatment to protect them against corrosion in a corrosive medium
The synthesis of the novel pyrazolylnucleosides 5a–e used in the present study has been reported earlier by our G roups[17]
Summary
Five novel pyrazolylnucleosides have been evaluated theoretically for their corrosion inhibition efficiency on the Cu(111) surface in acidic media. Five novel synthetic pyrazolylnucleosides, which showed potential anticancer activities have been theoretically studied for the first time as suitable effective corrosion inhibitors on copper surface Cu(111) in acidic m edium[2,22,23,24,25,26,27,28,29].
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