Corrosion inhibition performance of new Schiff base cyclohexanamine derivatives on C-steel in 1 M HCl solution: Electrochemical, chemical, surface and computational explorations

[Display omitted] •Schiff base derivatives (CSBs) were synthesized and confirmed.•CSBs were investigated as corrosion inhibitors in 1 M HCl solution.•Polarization studies indicated that CSBs acted as a mixed-type inhibitor.•Adsorption studies indicated that the inhibitor obeyed the Langmuir isotherm...

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Published inInorganic chemistry communications Vol. 163; p. 112339
Main Authors Farag, Ahmed A., Alayyafi, AbdulAziz A., Alhussain, Hanan, Fawzy, Ahmed, Masoud, Emad M., Toghan, Arafat
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2024
Subjects
C-steel
Computational
Corrosion inhibitors
Kinetics and thermodynamics
Schiff bases
Kinetics and thermodynamics
Schiff bases
Corrosion inhibitors
Computational
C-steel
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Abstract [Display omitted] •Schiff base derivatives (CSBs) were synthesized and confirmed.•CSBs were investigated as corrosion inhibitors in 1 M HCl solution.•Polarization studies indicated that CSBs acted as a mixed-type inhibitor.•Adsorption studies indicated that the inhibitor obeyed the Langmuir isotherm model.•The theoretical calculations are correlated well with experimental techniques. Iron has many advantages, which makes it a material of great importance on the industrial level, but it is quickly affected by surrounding environmental factors that cause its corrosion. In this context, two new Schiff base cyclohexanamine derivatives (CSBs) were synthesized, characterized, and screened as corrosion inhibitors of C-steel in a 1 M hydrochloric acid solution. Specifically, they are (Z)-N-cyclohexyl-1-phenylethan-1-imine (CSB-1) and (E)-N′-cyclohexyl-N-hydroxybenzimidamide (CSB-2). 1H NMR was used to determine the structures of the new CSB molecules. The inhibition efficacies (%IE) were evaluated by combining theoretical, physical, chemical, electrochemical, and spectroscopic methods. The results confirmed that CSBs were mixed-type inhibitors and that the IE depended linearly on their concentration. The adsorption of these molecules on the metal surface is key to this role. Kinetic and thermodynamic studies indicated that they are physically adsorbed and subject the Langmuir adsorption isotherm. Using 0.001 M of inhibitor, the maximum %IEs achieved were 91.1 % for CSB-1 and 94.4 % for CSB-2, respectively, which confirms tatehat they are promising inhibitors. Surface analysis via atomic force microscopy (AFM) confirmed that the C-steel was covered in a protective layer. Several thermodynamic and kinetic parameters were calculated. DFT and Mullikan charge calculations and molecular dynamics (MD) simulations were applied to predict the effectiveness and interactions of new CSBs on the steel surface as well. Theoretical expectations correspond to the practical.
AbstractList [Display omitted] •Schiff base derivatives (CSBs) were synthesized and confirmed.•CSBs were investigated as corrosion inhibitors in 1 M HCl solution.•Polarization studies indicated that CSBs acted as a mixed-type inhibitor.•Adsorption studies indicated that the inhibitor obeyed the Langmuir isotherm model.•The theoretical calculations are correlated well with experimental techniques. Iron has many advantages, which makes it a material of great importance on the industrial level, but it is quickly affected by surrounding environmental factors that cause its corrosion. In this context, two new Schiff base cyclohexanamine derivatives (CSBs) were synthesized, characterized, and screened as corrosion inhibitors of C-steel in a 1 M hydrochloric acid solution. Specifically, they are (Z)-N-cyclohexyl-1-phenylethan-1-imine (CSB-1) and (E)-N′-cyclohexyl-N-hydroxybenzimidamide (CSB-2). 1H NMR was used to determine the structures of the new CSB molecules. The inhibition efficacies (%IE) were evaluated by combining theoretical, physical, chemical, electrochemical, and spectroscopic methods. The results confirmed that CSBs were mixed-type inhibitors and that the IE depended linearly on their concentration. The adsorption of these molecules on the metal surface is key to this role. Kinetic and thermodynamic studies indicated that they are physically adsorbed and subject the Langmuir adsorption isotherm. Using 0.001 M of inhibitor, the maximum %IEs achieved were 91.1 % for CSB-1 and 94.4 % for CSB-2, respectively, which confirms tatehat they are promising inhibitors. Surface analysis via atomic force microscopy (AFM) confirmed that the C-steel was covered in a protective layer. Several thermodynamic and kinetic parameters were calculated. DFT and Mullikan charge calculations and molecular dynamics (MD) simulations were applied to predict the effectiveness and interactions of new CSBs on the steel surface as well. Theoretical expectations correspond to the practical.
ArticleNumber 112339
Author Toghan, Arafat
Farag, Ahmed A.
Fawzy, Ahmed
Alhussain, Hanan
Alayyafi, AbdulAziz A.
Masoud, Emad M.
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  givenname: Arafat
  surname: Toghan
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  email: aatahmed@imamu.edu.sa, arafat.toghan@yahoo.com
  organization: Chemistry Department, College of Science, Imam Mohammad Ibn Saud Islamic University (IMSIU), Riyadh 11623, Saudi Arabia
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Keywords Kinetics and thermodynamics
Schiff bases
Corrosion inhibitors
Computational
C-steel
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Snippet [Display omitted] •Schiff base derivatives (CSBs) were synthesized and confirmed.•CSBs were investigated as corrosion inhibitors in 1 M HCl...
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StartPage 112339
SubjectTerms C-steel
Computational
Corrosion inhibitors
Kinetics and thermodynamics
Schiff bases
Title Corrosion inhibition performance of new Schiff base cyclohexanamine derivatives on C-steel in 1 M HCl solution: Electrochemical, chemical, surface and computational explorations
URI https://dx.doi.org/10.1016/j.inoche.2024.112339
Volume 163
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