How to cite this paper
Ragi, K., Kakkassery, J., Raphael, V., Paulson, B & Johnson, R. (2021). Corrosion inhibition of mild steel by N, N’-(5,5- dimethylcyclohexane-1,3-diylidene)dianiline in acid media: Gravimetric and electrochemical evaluations.Current Chemistry Letters, 10(2), 67-80.
Refrences
1. Wang X., Wang Y., Wang Q., Wan Y., Huang X., and Jing C. (2018) Viburnum Sargentii Koehne fruit extract as corrosion inhibitor for mild steel in acidic solution. Int. J. Electrochem. Sci. 13 (2018) 5228-5242.
2. Ansari K. R., Quraishi M. A., and Singh A. (2015) Corrosion inhibition of mild steel in hydrochloric acid by some pyridine derivatives: An experimental and quantum chemical study. J. Ind. Eng. Chem. 25 89-98.
3. Singh A. K., Shukla S. K., Quraishi M. A., and Ebenso E. E. (2012) Investigation of adsorption characteristics of N,N’-[(methylimino)dimethylidyne]di-2,4-xylidine as corrosion inhibitor at mild steel/sulphuric acid interface. J. Taiwan. Inst. Chem. E. 43 (3) 463-472.
4. Ragi K., Joby Thomas K., Vinod P. Raphael., Sini Varghese C., and Binsi M. Paulson. (2019) Synthesis, cyclic voltammetric, electrochemical and gravimetric corrosion inhibition investigations of Schiff base derived from 5, 5-dimethyl-1,3-cyclohexanedione and 2-aminophenol on mild steel in 1M HCl and 0.5M H2SO4. Int. J. Electrochem. 2019 1-13.
5. Ramya K., Mohan R., Anupama K.K., and Joseph A. (2015) Electrochemical and theoretical studies on the synergistic interaction and corrosion inhibition of alkyl benzimidazoles and thiosemicarbazide pair on mild steel in hydrochloric acid. Mater. Chem. Phys. 149-150 (2015) 632-647.
6. Ahamad I., Prasad R., and Quraishi M. A. (2010) Experimental and quantum chemical characterization of the adsorption of some Schiff base compounds of phthaloyl thiocarbohydrazide on the mild steel in acid solutions. Mater. Chem. Phys. 124 (2-3)1155-1165.
7. Ansari K. R., and Quraishi M. A. (2015) Isatin derivatives as a non-toxic corrosion inhibitor for mild steel in 20% H2SO4. Corros. Sci. 95 62-70.
8. John S., and Joseph A. (2012) Electro analytical, surface morphological and theoretical studies on corrosion inhibition behaviour of different 1,2,4-triazole precursors on mild steel in 1 M hydrochloric acid. Mater. Chem. Phys. 133 1083-1091.
9. Singh P., Srivastava V., and Quraishi M.A. (2016) Novel quinoline derivatives as green corrosion inhibitors for mild steel in acidic medium: Electrochemical, SEM, AFM, and XPS studies. J. Mol. Liq. 216 164-173.
10. Mallaiya K., Subramanian R., Srikandan S., Gowri S., Rajasekaran N., and Selvaraj A. (2011) Electrochemical characterization of the protective film formed by the unsymmetrical Schiff's base on the mild steel surface in acid media. Electrochim. Acta. 56 (11) 3857-3863.
11. Ansari K.R., Quraishi M.A., and Singh A. (2014) Schiff’s base of pyridyl substituted triazoles as new and effective corrosion inhibitors for mild steel in hydrochloric acid solution. Corros. Sci. 79 5-15.
12. 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.
13. 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 2689-2701.
14. Saha S. K., Dutta A., Ghosh P., Sukul D., and Banerjee P. (2015) Adsorption and corrosion inhibition effect of Schiff base molecules on the mild steel surface in 1 M HCl medium: A combined experimental and theoretical approach. Phys. Chem. Chem. Phys. 17 (8) 5679-5690.
15. Ahamad I., Prasad R., and Quraishi M.A. (2010) Inhibition of mild steel corrosion in acid solution by Pheniramine drug: Experimental and theoretical study. Corros. Sci. 52 (9) 3033–3041.
16. Yadav D. K., Chauhan D.S., Ahamad I., and Quraishi M.A. (2013) Electrochemical behavior of steel/acid interface:adsorption and inhibition effect of oligomeric aniline. RSC Adv. 3 (2) 632.
17. Ansari K. R., and Quraishi M.A. (2013) Bis-Schiff bases of isatin as new and environmentally benign corrosion inhibitor for mild steel. J. Ind. Eng. Chem. 20 (5) 2819-2829.
18. Issaadi S., Douadi T., Zouaoui A., Chafaa S., Khan M.A., and Bouet G. (2011) Novel thiophene symmetrical Schiff base compounds as corrosion inhibitor for mild steel in acidic media. Corros Sci. 53 (4) 1484–1488.
19. Ansari K. R., Quraishi M.A., and Singh A. (2014) Schiff’s base of pyridyl substituted triazoles as new and effective corrosion inhibitors for mild steel in hydrochloric acid solution, Corros Sci. 79 5-15.
20. Badr G. E. (2009) The role of some thiosemicarbazide derivatives as corrosion inhibitors for C-steel in acidic medium. Corros Sci. 51 2529-2536.
21. Yadav D. K., Quraishi M. A., and Maiti B. (2012) Inhibition effect of some benzylidenes on mild steel in 1 M HCl: An experimental and theoretical correlation. Corros Sci. 55 254-266.
22. Hegazy M.A., Hasan A. M., Emara M.M., Bakr M. F., and Youssef A. H. (2012) Evaluating four synthesized Schiff bases as corrosion inhibitors on the carbon steel in 1 M hydrochloric acid. Corros. Sci. 65 67-76.
23. Verma C. B., Ebenso E. E., Bahadur I., Obot I. B., and Quraishi M.A. (2015) 5-(Phenylthio)-3H-pyrrole-4-carbonitriles as effective corrosion inhibitors for mild steel in 1 M HCl: Experimental and theoretical investigation. J. Mol. Liq. 212 209-218.
24. Verma C., Quraishi M. A., and Singh A. (2015) 2-Aminobenzene-1,3-dicarbonitriles as green corrosion inhibitor for mild steel in 1M HCl: Electrochemical, thermodynamic, surface and quantum chemical investigation. J Taiwan Inst Chem E. 49 229-239.
25. Singh A. K., and Quraishi M.A. (2011) Investigation of the effect of disulfiram on corrosion of mild steel in hydrochloric acid solution. Corros. Sci. 53 (4) 1288-1297.
26. Chaitra T. K., Mohana K. N. S., and Tandon H. C. (2015) Thermodynamic, electrochemical and quantum chemical evaluation of some triazole Schiff bases as mild steel corrosion inhibitors in acid media. J. Mol. Liq. 211 1025-1038.
27. Deng Q., Shi H. W., Ding N. N., Chen B. Q., He X. P., Liu G., Tang Y., Long Y. T., and Chen G. R. (2012) Novel triazolyl bis-amino acid derivatives readily synthesized via click chemistry as potential corrosion inhibitors for mild steel in HCl. Corros. Sci. 57 220–227.
28. Tao Z., He W., Wang S., Zhang S., and Zhou G. (2012) A study of differential polarization curves and thermodynamic properties for mild steel in acidic solution with nitrophenyltriazole derivative. Corros. Sci. 60 205–213.
29. Ahamad I., Prasad R., and Quraishi M.A. (2010) Thermodynamic, electrochemical and quantum chemical investigation of some Schiff bases as corrosion inhibitors for mild steel in hydrochloric acid solutions. Corros. Sci. 52 (3) 933–942.
30. Issa R. M., Awad M. K., and Atlam F. M. (2008) Quantum chemical studies on the inhibition of corrosion of copper surface by substituted uracils. Appl. Surf. Sci. 255 2433-2441.
31. Markhali B. P., Naderi R., Mahdavian M., Sayebani M., and Arman S. Y. (2013) Electrochemical impedance spectroscopy and electrochemical noise measurements as tools to evaluate corrosion inhibition of azole compounds on stainless steel in acidic media. Corros. Sci. 75 269-279.
32. Meng Y., Ning W., Xu B., Yang W., Zhang K., Chen Y., Li L., Liu X., Zhenga J., and Zhangb Y. (2017) Inhibition of mild steel corrosion in hydrochloric acid using two novel pyridine Schiff base derivatives: a comparative study of experimental and theoretical results. RSC Adv. 7 (68) 43014-43029.
33. Dandia A., Gupta S. L., Quraishi M. A., and Singh P. (2013) Ultrasound assisted synthesis of Pyrazolo[3,4-b]pyridines as potential corrosion inhibitors for mild steel in 1.0 M HCl, ACS Sustain Chem Eng. 1 (10) 1303-1310.
34. Deng S., Li X., and Fu H. (2011) Alizarin violet 3B as a novel corr osion inhibitor for steel in HCl, H2SO4 solutions. Corros. Sci. 53 3596-3602.
35. Farag A. A., Migahed M. A., and Al-Sabagh A.M. (2015) Adsorption and inhibition behavior of a novel Schiff base on carbon steel corrosion in acid media. Egypt. J. Petrol. 24 (3) 307-315.
36. Daoud D., Douadi T., Issaadi S., and Chafaa S. (2014) Adsorption and corrosion inhibition of new synthesized thiophene Schiff base on mild steel X52 in HCl and H2SO4 solutions. Corros. Sci. 79 50-58.
37. Gupta N. K., Quraishi M.A., Verma C., and Mukherjee A. K. (2016) Green Schiff’s bases as corrosion inhibitors for mild steel in 1 M HCl solution: Experimental and Theoretical approach. RSC Adv. 6 (104) 102076-102087.
38. Jacob K. S., and Parameswaran G. (2010) Corrosion inhibition of mild steel in hydrochloric acid solution by Schiff base furoin thiosemicarbazone. Corros. Sci. 52 (1) 224-228.
39. Gupta N. K., Verma C., Quraishi M.A., and Mukherjee A.K. (2016) Schiff's bases derived from L-lysine and aromatic aldehydes as green corrosion inhibitors for mild steel: Experimental and theoretical studies. J. Mol. Liq. 215 47-57.
40. Raphael V. P., Shaju K. S., and Thomas K. J. (2016) Monitoring the interaction of two heterocyclic compounds on carbon Steel by electrochemical polarization, noise, and quantum chemical studies. Int. J. Corros. 2016 1-10.
2. Ansari K. R., Quraishi M. A., and Singh A. (2015) Corrosion inhibition of mild steel in hydrochloric acid by some pyridine derivatives: An experimental and quantum chemical study. J. Ind. Eng. Chem. 25 89-98.
3. Singh A. K., Shukla S. K., Quraishi M. A., and Ebenso E. E. (2012) Investigation of adsorption characteristics of N,N’-[(methylimino)dimethylidyne]di-2,4-xylidine as corrosion inhibitor at mild steel/sulphuric acid interface. J. Taiwan. Inst. Chem. E. 43 (3) 463-472.
4. Ragi K., Joby Thomas K., Vinod P. Raphael., Sini Varghese C., and Binsi M. Paulson. (2019) Synthesis, cyclic voltammetric, electrochemical and gravimetric corrosion inhibition investigations of Schiff base derived from 5, 5-dimethyl-1,3-cyclohexanedione and 2-aminophenol on mild steel in 1M HCl and 0.5M H2SO4. Int. J. Electrochem. 2019 1-13.
5. Ramya K., Mohan R., Anupama K.K., and Joseph A. (2015) Electrochemical and theoretical studies on the synergistic interaction and corrosion inhibition of alkyl benzimidazoles and thiosemicarbazide pair on mild steel in hydrochloric acid. Mater. Chem. Phys. 149-150 (2015) 632-647.
6. Ahamad I., Prasad R., and Quraishi M. A. (2010) Experimental and quantum chemical characterization of the adsorption of some Schiff base compounds of phthaloyl thiocarbohydrazide on the mild steel in acid solutions. Mater. Chem. Phys. 124 (2-3)1155-1165.
7. Ansari K. R., and Quraishi M. A. (2015) Isatin derivatives as a non-toxic corrosion inhibitor for mild steel in 20% H2SO4. Corros. Sci. 95 62-70.
8. John S., and Joseph A. (2012) Electro analytical, surface morphological and theoretical studies on corrosion inhibition behaviour of different 1,2,4-triazole precursors on mild steel in 1 M hydrochloric acid. Mater. Chem. Phys. 133 1083-1091.
9. Singh P., Srivastava V., and Quraishi M.A. (2016) Novel quinoline derivatives as green corrosion inhibitors for mild steel in acidic medium: Electrochemical, SEM, AFM, and XPS studies. J. Mol. Liq. 216 164-173.
10. Mallaiya K., Subramanian R., Srikandan S., Gowri S., Rajasekaran N., and Selvaraj A. (2011) Electrochemical characterization of the protective film formed by the unsymmetrical Schiff's base on the mild steel surface in acid media. Electrochim. Acta. 56 (11) 3857-3863.
11. Ansari K.R., Quraishi M.A., and Singh A. (2014) Schiff’s base of pyridyl substituted triazoles as new and effective corrosion inhibitors for mild steel in hydrochloric acid solution. Corros. Sci. 79 5-15.
12. 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.
13. 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 2689-2701.
14. Saha S. K., Dutta A., Ghosh P., Sukul D., and Banerjee P. (2015) Adsorption and corrosion inhibition effect of Schiff base molecules on the mild steel surface in 1 M HCl medium: A combined experimental and theoretical approach. Phys. Chem. Chem. Phys. 17 (8) 5679-5690.
15. Ahamad I., Prasad R., and Quraishi M.A. (2010) Inhibition of mild steel corrosion in acid solution by Pheniramine drug: Experimental and theoretical study. Corros. Sci. 52 (9) 3033–3041.
16. Yadav D. K., Chauhan D.S., Ahamad I., and Quraishi M.A. (2013) Electrochemical behavior of steel/acid interface:adsorption and inhibition effect of oligomeric aniline. RSC Adv. 3 (2) 632.
17. Ansari K. R., and Quraishi M.A. (2013) Bis-Schiff bases of isatin as new and environmentally benign corrosion inhibitor for mild steel. J. Ind. Eng. Chem. 20 (5) 2819-2829.
18. Issaadi S., Douadi T., Zouaoui A., Chafaa S., Khan M.A., and Bouet G. (2011) Novel thiophene symmetrical Schiff base compounds as corrosion inhibitor for mild steel in acidic media. Corros Sci. 53 (4) 1484–1488.
19. Ansari K. R., Quraishi M.A., and Singh A. (2014) Schiff’s base of pyridyl substituted triazoles as new and effective corrosion inhibitors for mild steel in hydrochloric acid solution, Corros Sci. 79 5-15.
20. Badr G. E. (2009) The role of some thiosemicarbazide derivatives as corrosion inhibitors for C-steel in acidic medium. Corros Sci. 51 2529-2536.
21. Yadav D. K., Quraishi M. A., and Maiti B. (2012) Inhibition effect of some benzylidenes on mild steel in 1 M HCl: An experimental and theoretical correlation. Corros Sci. 55 254-266.
22. Hegazy M.A., Hasan A. M., Emara M.M., Bakr M. F., and Youssef A. H. (2012) Evaluating four synthesized Schiff bases as corrosion inhibitors on the carbon steel in 1 M hydrochloric acid. Corros. Sci. 65 67-76.
23. Verma C. B., Ebenso E. E., Bahadur I., Obot I. B., and Quraishi M.A. (2015) 5-(Phenylthio)-3H-pyrrole-4-carbonitriles as effective corrosion inhibitors for mild steel in 1 M HCl: Experimental and theoretical investigation. J. Mol. Liq. 212 209-218.
24. Verma C., Quraishi M. A., and Singh A. (2015) 2-Aminobenzene-1,3-dicarbonitriles as green corrosion inhibitor for mild steel in 1M HCl: Electrochemical, thermodynamic, surface and quantum chemical investigation. J Taiwan Inst Chem E. 49 229-239.
25. Singh A. K., and Quraishi M.A. (2011) Investigation of the effect of disulfiram on corrosion of mild steel in hydrochloric acid solution. Corros. Sci. 53 (4) 1288-1297.
26. Chaitra T. K., Mohana K. N. S., and Tandon H. C. (2015) Thermodynamic, electrochemical and quantum chemical evaluation of some triazole Schiff bases as mild steel corrosion inhibitors in acid media. J. Mol. Liq. 211 1025-1038.
27. Deng Q., Shi H. W., Ding N. N., Chen B. Q., He X. P., Liu G., Tang Y., Long Y. T., and Chen G. R. (2012) Novel triazolyl bis-amino acid derivatives readily synthesized via click chemistry as potential corrosion inhibitors for mild steel in HCl. Corros. Sci. 57 220–227.
28. Tao Z., He W., Wang S., Zhang S., and Zhou G. (2012) A study of differential polarization curves and thermodynamic properties for mild steel in acidic solution with nitrophenyltriazole derivative. Corros. Sci. 60 205–213.
29. Ahamad I., Prasad R., and Quraishi M.A. (2010) Thermodynamic, electrochemical and quantum chemical investigation of some Schiff bases as corrosion inhibitors for mild steel in hydrochloric acid solutions. Corros. Sci. 52 (3) 933–942.
30. Issa R. M., Awad M. K., and Atlam F. M. (2008) Quantum chemical studies on the inhibition of corrosion of copper surface by substituted uracils. Appl. Surf. Sci. 255 2433-2441.
31. Markhali B. P., Naderi R., Mahdavian M., Sayebani M., and Arman S. Y. (2013) Electrochemical impedance spectroscopy and electrochemical noise measurements as tools to evaluate corrosion inhibition of azole compounds on stainless steel in acidic media. Corros. Sci. 75 269-279.
32. Meng Y., Ning W., Xu B., Yang W., Zhang K., Chen Y., Li L., Liu X., Zhenga J., and Zhangb Y. (2017) Inhibition of mild steel corrosion in hydrochloric acid using two novel pyridine Schiff base derivatives: a comparative study of experimental and theoretical results. RSC Adv. 7 (68) 43014-43029.
33. Dandia A., Gupta S. L., Quraishi M. A., and Singh P. (2013) Ultrasound assisted synthesis of Pyrazolo[3,4-b]pyridines as potential corrosion inhibitors for mild steel in 1.0 M HCl, ACS Sustain Chem Eng. 1 (10) 1303-1310.
34. Deng S., Li X., and Fu H. (2011) Alizarin violet 3B as a novel corr osion inhibitor for steel in HCl, H2SO4 solutions. Corros. Sci. 53 3596-3602.
35. Farag A. A., Migahed M. A., and Al-Sabagh A.M. (2015) Adsorption and inhibition behavior of a novel Schiff base on carbon steel corrosion in acid media. Egypt. J. Petrol. 24 (3) 307-315.
36. Daoud D., Douadi T., Issaadi S., and Chafaa S. (2014) Adsorption and corrosion inhibition of new synthesized thiophene Schiff base on mild steel X52 in HCl and H2SO4 solutions. Corros. Sci. 79 50-58.
37. Gupta N. K., Quraishi M.A., Verma C., and Mukherjee A. K. (2016) Green Schiff’s bases as corrosion inhibitors for mild steel in 1 M HCl solution: Experimental and Theoretical approach. RSC Adv. 6 (104) 102076-102087.
38. Jacob K. S., and Parameswaran G. (2010) Corrosion inhibition of mild steel in hydrochloric acid solution by Schiff base furoin thiosemicarbazone. Corros. Sci. 52 (1) 224-228.
39. Gupta N. K., Verma C., Quraishi M.A., and Mukherjee A.K. (2016) Schiff's bases derived from L-lysine and aromatic aldehydes as green corrosion inhibitors for mild steel: Experimental and theoretical studies. J. Mol. Liq. 215 47-57.
40. Raphael V. P., Shaju K. S., and Thomas K. J. (2016) Monitoring the interaction of two heterocyclic compounds on carbon Steel by electrochemical polarization, noise, and quantum chemical studies. Int. J. Corros. 2016 1-10.