How to cite this paper
Varghese, C., Thomas, K., Raphael, V & Shaju, K. (2019). Corrosion inhibition capacity of two heterocyclic oximes on copper in nitric acid: electrochemical, quantum chemical and surface morphological investigations.Current Chemistry Letters, 8(1), 1-12.
Refrences
1. Khaled K. F., Amin M. A., and Al-Mobarak N. A. (2010) On the corrosion inhibition and adsorption behaviour of some benzotriazole derivatives during copper corrosion in nitric acid solutions: a combined experimental and theoretical study. J. Appl. Electrochem., 40(3), 601–613.
2. Raphael V. P., Thomas K. J., Shaju K. S., and Paul A. (2014) Corrosion inhibition investigations of 3-acetylpyridine semicarbazone on carbon steel in hydrochloric acid medium. Res. Chem. Intermediat., 40(8), 2689-2701.
3. John S., and Joseph A. (2012) Electro analytical, surface morphological and theoretical studies on the corrosion inhibition behaviour of different 1,2,4-triazole precursors on mild steel in 1M hydrochloric acid. Mater. Chem. Phys., 133, 1083-1091.
4. Karthik G., and Sundaravadivelu M. (2016) Investigations of the inhibition of copper corrosion in nitric acid solutions by levetiracetam drug,” Egyptian Journal of Petroleum, 25(4),481-493
5. Khan P. F., Shanthi V., Babu R. K., Muralidharan M., and Barik R. C. (2015) Effect of benzotriazole on corrosion inhibition of copper under flow conditions. J. Enviorn. Chemi. Eng., 3(1), 10-19.
6. Gopi D., Govindaraju K. M., and Kavitha L. (2010) Investigation of triazole derived Schiff bases as corrosion inhibitors for mild steel in hydrochloric acid medium. J. Appl. Electrochem., 40, 1349-1356.
7. Hosseini S. M. A., and Azimi A. (2009) The inhibition of mild steel corrosion in acidic medium by 1-methyl-3-pyridin-2-yl-thiourea. Corros. Sci., 51(4), 728–732.
8. Liu P., Fang X., Tang Y., Sun C., and Yao C. (2011) Electrochemical and Quantum Chemical Studies of 5-Substituted Tetrazoles as Corrosion Inhibitors for Copper in Aerated 0.5 M H2SO4 Solution. Mater. Sci. Appl., 2, 1268-1278.
9. Dafali A., Hammouti B., Mokhlisse R., and Kertit S., (2003) Substituted uracils as corrosion inhibitors for copper in 3% NaCl solution. Corros. Sci., 45(8), 1619-1630.
10. Kuriakose N., Thomas K. J., Raphael V. P., Shaju K. S., (2014) Electrochemical Impedance Spectroscopy and Potentiodynamic Polarization Analysis on Anticorrosive Activity of Thiophene-2-Carbaldehyde Derivative in Acid Medium. Indian J. Mater. Sci., 2014, Article ID 124065, doi:10.1155/2014/124065.
11. Ouali I. E., Hammouti B., Aouniti A., Benabdellah M., and Kertit S., (2011) Electrochemical behaviour of N,S-containing corrosion inhibitor for C38 Steel in molar HCl. Der Pharma Chemica, 3(5), 294-300.
12. Zarrouk A., Dafali A., Hammouti B., Zarrok H., Boukhris S., and Zertoubi M., (2010) Synthesis, Characterization and Comparative Study of Quinoxalines Functionalized Derivatives towards Corrosion of Mild Steel in Hydrochloric Acid Medium. Inter. J. Electrochemi. Sci., 5, 46-55.
13. Abd El Rehim, S. S., Ibrahim, M. A. M., and Khalid, K. F. (2001) The inhibition of 4-(2′-amino-5′-methylphenylazo) antipyrine on corrosion of mild steel in HCl solution. Mater. Chem. Phy., 70(3), 268-273.
14. Raman A., and labine P., (1986) Reviews on Corrosion Inhibitor Science and Technology, NACE, Houston, Tex, USA.
15. Li X., Deng S., and Fu H., (2009) Synergism between red tetrazolium and uracil on the corrosion of cold rolled steel in H2SO4 solution. Corros. Sci., 51(6), 1344-1355.
16. Cafferty M. M., and Hackerman N., (1972) Double layer capacitance of tron and corrosion inhibition with polymethylene diamines. J. Electrochim. Soc., 119(2), 146-154.
17. Achouri M. E., Kertit S., Gouttaya H. M., Nciri B., Bensouda Y., Perez L., Infante M. R., and Elkacemi K. (2001) Corrosion inhibition of some Gemini surfactants in the series of alkanediayl-a,x-bis(dimethyltetradecyl ammonium bromide). Prog. Org. Coat., 43, 267-273.
18. El-Shafei A. A., Moussa M. N. H., and El- Far A. A., (2001) The corrosion inhibition character of thiosemicarbazide and its derivatives for C-steel in hydrochloric acid solution. Mater. Chem. Phys., 70(2), 175-180.
19. Shukla S. K., Quraishi M. A., and Prakash R., (2008) A self-doped conducting polymer polyanthranilic acid: for mild steel in acid solution. Corros. Sci., 50, 2867-2872.
20. Fuchs-Godec R., (2007) Inhibitory effect of non –ionic surfactants of the TRITON-X series on the corrosion of carbon steel in sulphuric acid. Electrochim. Acta., 52, 4974-4981.
21. Umoren S. A., Eduok U. M., and Oguzie E. E., (2008) Corrosion inhibition of mild steel in 1M H2SO4 by polyvinyl pyrrolidone and synergistic iodide additives. Portugaliae Electrochim. Acta., 26(6), 533-546.
22. Pourbaix M. (1975) Atlas of Elecrochemical Equilibria in Aqueous Solutions. NACE, Houston, TX.
23. Johnson H. E., and Leja J. (1965) On the Potential/pH diagrams of the Cu ‐ NH3 ‐ H2O and Zn ‐ NH3 ‐ H2 O systems technical notes. J. Electrochem. Soc., 112(6), 638-641.
24. Smyrl W. H., Bockris J., Conway B. E., Yeager E., and White R. E. (1981) Comprehensive Treatise of Electrochemistry. 4, Plenum Press, New York.
25. Mahdavian M., and Ashhari S. (2010) Corrosion inhibition performance of 2-mercaptobenzimidazole and 2-mercaptobenzoxazole compounds for protection of mild steel in hydrochloric acid solution. Electrochim. Acta., 55, 1720-1724.
26. Bentiss F., Lebrini M., Lagrenee M., Traisnel M., Elfarouk A., and Vezin H. (2007) The influence of some new 2,5-disubstituted 1,3,4- thiadiazoles on the corrosion behaviour of mild steel in 1M HCl solution: AC impedance study and theoretical approach. Electrochim. Acta., 52, 6865-6872.
27. Sastri V. S., and Perumareddi J. R. (1997) Molecular orbital theoretical studies of some organic corrosion inhibitors. Corrosion 53(8) 617-622.
28. Ferreira E. S., Giacomelli C., Giacomelli F. C., and Spinelli A. (2004). Evaluation of the inhibitor effect of L-ascorbic acid on the corrosion of mild steel. Mater. Chem. Phys., 83(1) 129-134.
29. Xia S., Qiu M., Yu L., Liu F., and Zhao H. (2008) Molecular dynamics and density functional theory study on relationship between structure of imidazoline derivatives and inhibition performance. Corros. Sci., 50, 2021-2029.
30. Malpica A., Calzadilla M., Baumrucker J., Jimenez J., Lopez L., Escobar G., and Montes C. (1994) Kinetics and Mechanism for Oxime Formation from Pyridine-2-, -3-, and -4-carboxaldehydes. J. Org. Chem., 59 (12), 3398–3401.
31. Fiala A., Chibani A., Darchen A., Boulkamh A., and Djebbar K. (2007) Investigations of the inhibition of copper corrosion in nitric acid solutions by ketene dithioacetal derivatives. Appl. Sur. Sci., 253(24), 9347-9356.
32. Khaled K.F. (2010) Corrosion control of copper in nitric acid solutions using some amino acids – A combined experimental and theoretical study. Corros. Sci., 52(10), 3225-3234.
33. Hanza P., Naderi A.R., Kowsari E., and Sayebani M. (2015) Corrosion behavior of mild steel in H2SO4 solution with 1,4 –di[1’-methylene-3-‘ methyl imidazolium bromide]- benzene as an ionic liquid, Corros. Sci., 107, 96-106.
34. Soltani N., Behpour M., Ghoreishi S. M., and Naeimi H. (2010) Corrosion inhibition of mild steel in hydrochloric acid solution by some double Schiff bases. Corros. Sci., 52(4), 1351-1361.
2. Raphael V. P., Thomas K. J., Shaju K. S., and Paul A. (2014) Corrosion inhibition investigations of 3-acetylpyridine semicarbazone on carbon steel in hydrochloric acid medium. Res. Chem. Intermediat., 40(8), 2689-2701.
3. John S., and Joseph A. (2012) Electro analytical, surface morphological and theoretical studies on the corrosion inhibition behaviour of different 1,2,4-triazole precursors on mild steel in 1M hydrochloric acid. Mater. Chem. Phys., 133, 1083-1091.
4. Karthik G., and Sundaravadivelu M. (2016) Investigations of the inhibition of copper corrosion in nitric acid solutions by levetiracetam drug,” Egyptian Journal of Petroleum, 25(4),481-493
5. Khan P. F., Shanthi V., Babu R. K., Muralidharan M., and Barik R. C. (2015) Effect of benzotriazole on corrosion inhibition of copper under flow conditions. J. Enviorn. Chemi. Eng., 3(1), 10-19.
6. Gopi D., Govindaraju K. M., and Kavitha L. (2010) Investigation of triazole derived Schiff bases as corrosion inhibitors for mild steel in hydrochloric acid medium. J. Appl. Electrochem., 40, 1349-1356.
7. Hosseini S. M. A., and Azimi A. (2009) The inhibition of mild steel corrosion in acidic medium by 1-methyl-3-pyridin-2-yl-thiourea. Corros. Sci., 51(4), 728–732.
8. Liu P., Fang X., Tang Y., Sun C., and Yao C. (2011) Electrochemical and Quantum Chemical Studies of 5-Substituted Tetrazoles as Corrosion Inhibitors for Copper in Aerated 0.5 M H2SO4 Solution. Mater. Sci. Appl., 2, 1268-1278.
9. Dafali A., Hammouti B., Mokhlisse R., and Kertit S., (2003) Substituted uracils as corrosion inhibitors for copper in 3% NaCl solution. Corros. Sci., 45(8), 1619-1630.
10. Kuriakose N., Thomas K. J., Raphael V. P., Shaju K. S., (2014) Electrochemical Impedance Spectroscopy and Potentiodynamic Polarization Analysis on Anticorrosive Activity of Thiophene-2-Carbaldehyde Derivative in Acid Medium. Indian J. Mater. Sci., 2014, Article ID 124065, doi:10.1155/2014/124065.
11. Ouali I. E., Hammouti B., Aouniti A., Benabdellah M., and Kertit S., (2011) Electrochemical behaviour of N,S-containing corrosion inhibitor for C38 Steel in molar HCl. Der Pharma Chemica, 3(5), 294-300.
12. Zarrouk A., Dafali A., Hammouti B., Zarrok H., Boukhris S., and Zertoubi M., (2010) Synthesis, Characterization and Comparative Study of Quinoxalines Functionalized Derivatives towards Corrosion of Mild Steel in Hydrochloric Acid Medium. Inter. J. Electrochemi. Sci., 5, 46-55.
13. Abd El Rehim, S. S., Ibrahim, M. A. M., and Khalid, K. F. (2001) The inhibition of 4-(2′-amino-5′-methylphenylazo) antipyrine on corrosion of mild steel in HCl solution. Mater. Chem. Phy., 70(3), 268-273.
14. Raman A., and labine P., (1986) Reviews on Corrosion Inhibitor Science and Technology, NACE, Houston, Tex, USA.
15. Li X., Deng S., and Fu H., (2009) Synergism between red tetrazolium and uracil on the corrosion of cold rolled steel in H2SO4 solution. Corros. Sci., 51(6), 1344-1355.
16. Cafferty M. M., and Hackerman N., (1972) Double layer capacitance of tron and corrosion inhibition with polymethylene diamines. J. Electrochim. Soc., 119(2), 146-154.
17. Achouri M. E., Kertit S., Gouttaya H. M., Nciri B., Bensouda Y., Perez L., Infante M. R., and Elkacemi K. (2001) Corrosion inhibition of some Gemini surfactants in the series of alkanediayl-a,x-bis(dimethyltetradecyl ammonium bromide). Prog. Org. Coat., 43, 267-273.
18. El-Shafei A. A., Moussa M. N. H., and El- Far A. A., (2001) The corrosion inhibition character of thiosemicarbazide and its derivatives for C-steel in hydrochloric acid solution. Mater. Chem. Phys., 70(2), 175-180.
19. Shukla S. K., Quraishi M. A., and Prakash R., (2008) A self-doped conducting polymer polyanthranilic acid: for mild steel in acid solution. Corros. Sci., 50, 2867-2872.
20. Fuchs-Godec R., (2007) Inhibitory effect of non –ionic surfactants of the TRITON-X series on the corrosion of carbon steel in sulphuric acid. Electrochim. Acta., 52, 4974-4981.
21. Umoren S. A., Eduok U. M., and Oguzie E. E., (2008) Corrosion inhibition of mild steel in 1M H2SO4 by polyvinyl pyrrolidone and synergistic iodide additives. Portugaliae Electrochim. Acta., 26(6), 533-546.
22. Pourbaix M. (1975) Atlas of Elecrochemical Equilibria in Aqueous Solutions. NACE, Houston, TX.
23. Johnson H. E., and Leja J. (1965) On the Potential/pH diagrams of the Cu ‐ NH3 ‐ H2O and Zn ‐ NH3 ‐ H2 O systems technical notes. J. Electrochem. Soc., 112(6), 638-641.
24. Smyrl W. H., Bockris J., Conway B. E., Yeager E., and White R. E. (1981) Comprehensive Treatise of Electrochemistry. 4, Plenum Press, New York.
25. Mahdavian M., and Ashhari S. (2010) Corrosion inhibition performance of 2-mercaptobenzimidazole and 2-mercaptobenzoxazole compounds for protection of mild steel in hydrochloric acid solution. Electrochim. Acta., 55, 1720-1724.
26. Bentiss F., Lebrini M., Lagrenee M., Traisnel M., Elfarouk A., and Vezin H. (2007) The influence of some new 2,5-disubstituted 1,3,4- thiadiazoles on the corrosion behaviour of mild steel in 1M HCl solution: AC impedance study and theoretical approach. Electrochim. Acta., 52, 6865-6872.
27. Sastri V. S., and Perumareddi J. R. (1997) Molecular orbital theoretical studies of some organic corrosion inhibitors. Corrosion 53(8) 617-622.
28. Ferreira E. S., Giacomelli C., Giacomelli F. C., and Spinelli A. (2004). Evaluation of the inhibitor effect of L-ascorbic acid on the corrosion of mild steel. Mater. Chem. Phys., 83(1) 129-134.
29. Xia S., Qiu M., Yu L., Liu F., and Zhao H. (2008) Molecular dynamics and density functional theory study on relationship between structure of imidazoline derivatives and inhibition performance. Corros. Sci., 50, 2021-2029.
30. Malpica A., Calzadilla M., Baumrucker J., Jimenez J., Lopez L., Escobar G., and Montes C. (1994) Kinetics and Mechanism for Oxime Formation from Pyridine-2-, -3-, and -4-carboxaldehydes. J. Org. Chem., 59 (12), 3398–3401.
31. Fiala A., Chibani A., Darchen A., Boulkamh A., and Djebbar K. (2007) Investigations of the inhibition of copper corrosion in nitric acid solutions by ketene dithioacetal derivatives. Appl. Sur. Sci., 253(24), 9347-9356.
32. Khaled K.F. (2010) Corrosion control of copper in nitric acid solutions using some amino acids – A combined experimental and theoretical study. Corros. Sci., 52(10), 3225-3234.
33. Hanza P., Naderi A.R., Kowsari E., and Sayebani M. (2015) Corrosion behavior of mild steel in H2SO4 solution with 1,4 –di[1’-methylene-3-‘ methyl imidazolium bromide]- benzene as an ionic liquid, Corros. Sci., 107, 96-106.
34. Soltani N., Behpour M., Ghoreishi S. M., and Naeimi H. (2010) Corrosion inhibition of mild steel in hydrochloric acid solution by some double Schiff bases. Corros. Sci., 52(4), 1351-1361.