Electrochemical and AFM studies on adsorption behavior of a Polynuclear Schiff Base at carbon steel in HCl medium

Shanmughan, S.; Kakkassery, J.; Raphael, V.; Kuriakos, N.

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Current Chemistry Letters

ISSN 1927-730x (Online) - ISSN 1927-7296 (Print) Quarterly Publication Volume 4 Issue 2 pp. 67-76 , 2015

Electrochemical and AFM studies on adsorption behavior of a Polynuclear Schiff Base at carbon steel in HCl medium Pages 67-76 Download PDF

Authors: Shaju K Shanmughan, Joby Thomas Kakkassery, Vinod P Raphael, Nimmy Kuriakos

DOI: 10.5267/j.ccl.2015.2.001

Keywords: Adsorption, AFM, Carbon Steel, Corrosion Inhibitors, Impedance

Abstract: The adsorption behavior of a potential polynuclear Schiff base, (s)-2-(anthracen-9(10H)-ylideneamino)-3-phenyl propanoic acid (A9Y3PPA) on carbon steel (CS) in 1M hydrochloric acid solution has been investigated using weight loss measurements, electrochemical impedance spectroscopy (EIS) and potentiodynamic polarization studies. The surface morphology of the carbon steel specimens in the presence and absence of the inhibitor was evaluated by AFM analysis. The corrosion inhibition efficiencies of parent amine and parent ketone on carbon steel in 1M HCl solution have also been investigated using weight loss studies. The adsorption of A9Y3PPA obeys Langmuir adsorption isotherm. Thermodynamic parameters (Kads, ∆G0ads) were calculated using the adsorption isotherm. Activation parameters of the corrosion process (Ea, ∆H* and ∆S*) were also calculated from the corrosion rates obtained from temperature studies. Tafel plot analysis revealed that A9Y3PPA acts as a mixed type inhibitor. A probable inhibition mechanism was also proposed.

How to cite this paper

 Shanmughan, S., Kakkassery, J., Raphael, V & Kuriakos, N. (2015). Electrochemical and AFM studies on adsorption behavior of a Polynuclear Schiff Base at carbon steel in HCl medium.Current Chemistry Letters, 4(2), 67-76.

Refrences

1. James O., Oforka N. C., Abiola O. K. (2007) Inhibition of acid corrosion of mild steel by pyridoxal and pyridoxol hydrochlorides. Int. J. Electrochem. Sci., 2, 278-284.

2. Abd El-Maksoud S. A. (2008) The effect of organic compounds on the electrochemical behaviour of steel in acidic media. A review. Int. J. Electrochem. Sci., 3, 528-555.

3. Vinod P. R., Joby T. K., Shaju K. S., Aby P. (2013) Corrosion inhibition investigations of 3- acetylpyridine semicarbazone on carbon steel in hydrochloric acid medium. Res. Chem. Intermed., 40, 2689-2701. DOI 10.1007/s11164-013-1122-3

4. Ebenso E. E., Okafor P. C., Offiong O. E., Ita B. I., Ibok U. J., Ekpe U. J. (2001) Comparative investigation into the kinetics of corrosion inhibition of aluminium alloy AA 1060 in acidic medium. Bull. Elect. Chem., 17, 459-464.

5. Sethi T. A., Chaturvedi R. K., Upadyay, Marthur S. P. (2007) Corrosion inhibitory effects of some Schiff’s bases on mild steel in acid media. J. Chil. Chem. Soc., 52, 1206-213.

6. Srivastva K. P., Kumar A., Singh R. (2010) Bivalent transition metal complexes of tridentate Schiff base ligands: an ecofriendly study. J. Chem. Pharm. Res. 2, 68-77.

7. Suraj B. A., Deshpande M. N., Kolhatkar D. G. (2012) Corrosion a universal environmental problem: a role of Schiff base metal complexes as inhibitors. J. Chem. Pharm. Res., 4, 1033-1035.

8. Aby P., Joby T. K., Vinod P. R., Shaju K. S. (2012) Electrochemical and Gravimetric corrosion Inhibition Investigations of A Heterocyclic Schiff Base Derived From 3-Formylindole. IOSR J. Appl. Chem., 1,17-23.

9. Deng S., Li X., Fu H. (2011) Alizarin violet 3B as a novel corrosion inhibitor for steel in HCl, H2SO4 solutions. Corros. Sci., 53, 3596-3602.

10. Li X, Deng S, Fu H (2011) Blue tetrazolium as a novel corrosion inhibitor for cold rolled steel in sulfuric acid solution. Mater. Chem. Phys., 129, 696-700.

11. Shaju K. S., Joby T. K., Vinod P. R., Aby P. (2012) Synergistic Effect of KI on Corrosion Inhibition of Mild Steel by Polynuclear Schiff Base in Sulphuric Acid. ISRN Corrosion. DOI 10.5402/2012/425878.

12. Bouklah M., Hammouti B., Lagrenée M., Bentiss F. (2006) Thermodynamic properties of 2,5-bis(4-ethoxyphenyl)-1,3,4-oxadiazole as a corrosion inhibitor for mild steel in normal sulfuric acid medium. Corros. Sci. 48, 2831-2842.

13. Cano E., Polo J. L., Iglesia A. L., Bastidas J. M. (2004) A study on the adsorption of benzotriazole on copper in hydrochloric acid using the inflection point of the isotherm. Adsorption, 10, 219-225.

14. Bentiss F., Lebrini M., Lagrenée M. (2005) Thermodynamic characterization of metal dissolution and inhibitor adsorption processes in mild steel/2,5-bis (n-thienyl)-1,3,4-thiadiazoles/ hydrochloric acid system. Corros. Sci., 47, 2915-2931.

15. Li W., He Q., Zhang S., Pei C., Hou B. (2008) Some new triazole derivatives as inhibitors for mild steel corrosion in acidic medium. J. Appl. Electrochem., 38, 289-295.

16. Bouklah M., Benchat N., Hammouti B., Aouniti A., Kertit S., Thermodynamic characterisation of steel corrosion and inhibitor adsorption of pyridazine compounds in 0.5 M H2SO4. Mater. Lett., 60,1901-1905.

17. Sathiya Priya A. R., Muralidharam V. S., Subramannia A. (2008) Development of novel acidizing inhibitors for carbon steel corrosion in 15% boiling hydrochloric acid. Corrosion, 64, 541-552.

18. Azhar M. E., Mernari B., Traisnel M., Bentiss F., Lagrenée M. (2001) Corrosion inhibition of mild steel by the new class of inhibitors [2,5-bis(n-pyridyl)-1,3,4-thiadiazoles] in acidic media. Corros. Sci., 43, 2229-2238.

19. Yurt A., Balaban A., Ustün K. S., Bereket G., Erk B. (2004) Investigation on some Schiff bases as HCl corrosion inhibitors for carbon steel. Mater. Chem. Phys., 85, 420-426.

20. Macdonald J. R., Johnson W. B., Macdonald J. R. (1987) Theory in impedance Spectroscopy, John Wiley & Sons New York NY USA.

21. Singh A. K., Shukla S. K., Singh M., Quraishi M. A. (2011) Inhibitive effect of ceftazidime on corrosion of mild steel in hydrochloric acid solution. Mater. Chem. Phys., 129, 68-76.

22. MaCafferty M., Hackerman N. (1972) Double layer capacitance of iron and corrosion inhibition with polymethylene diamines. J. Electrochem. Soc. 119,146-154.

23. Li X., Deng S., Fu H. (2009) Synergism between red tetrazolium and uracil on the corrosion of cold rolled steel in H2SO4 solution. Corros. Sci. 51, 1344-1355.

24. Ferreira E. S., Giacomelli C., Giacomelli F. C., Spinelli A. (2004) Evaluation of the inhibitor effect of L-ascorbic acid on the corrosion of mild steel. Mater. Chem. Phys., 83, 129-134.

25. Shaju K. S., Joby T. K., Vinod P. R., Aby P. (2012) Electrochemical and surface morphological studies of carbon steel corrosion by a novel polynuclear Schiff Base in HCl solution. ISRN Electrochemistry. DOI.org/10.1155/2013/820548.

26. Bentiss F., Traisnel M., Lagrenée M. (2000) The substituted 1,3,4-oxadiazoles: a new class of corrosion inhibitors of mild steel in acidic media. Corros. Sci. 42,127-146.

27. Schweinsberg D. P., George G. A., Nanayakkara A. K., Steinert D. A., (1998) The protective action of epoxy resins and curing agents-inhibitive effects on the aqueous acid corrosion of iron and steel. Corros. Sci. 28, 33-42.

28. Shokry H., Yuasa M., Sekine I., Issa R. M., El-baradie H. Y., Gomma G. K. (1998) Corrosion inhibition of mild steel bySchiff base compounds in various aqueous solutions: part 1. Corros. Sci. 40, 2173-2186.

29. Singh A. K., Quraishi M. A. (2010) Inhibiting effects of 5-substituted isatin-based Mannich bases on the corrosion of mild steel in hydrochloric acid solution. J. Appl. Electrochem., 40, 1293-1306.

30. ASTM (1990) standard recommended practice for the laboratory immersion corrosion testing of metals. ASTM G-31-72, ASTM, Philadelphia, Pa, USA.

31. Emregul K. C., Atakol O. (2004) Corrosion inhibition of iron in 1 M HCl solution with Schiff base compounds and derivatives. Mater. Chem. Phys. 83, 373-379.

32. Raman A., Labine P. (1986) Reviews on Corrosion Inhibitor Science and Technology. NACE, Houston, Tex, USA.

33. Ashassi-Sorkhabi H., Shaabani B., Seifzadeh D. (2005) Effect of some pyrimidinic Shciff bases on the corrosion of mild steel in hydrochloric acid solution. Electrochim. Acta., 50, 3446-3452.

34. Elkadi L., Mernari B., Traisnel M., Bentiss F., Lagrenée M. (2000) The inhibition action of 3,6-bis(2-methoxyphenyl)-1,2-dihydro-1,2,4,5-tetrazine on the corrosion of mild steel in acidic media. Corros. Sci. 42, 703-719.