[1]
M.H. Wood, R.J.L. Welbourn, A. Zarbakhsh, P. Gutfreund, S.M. Clarke, Polarized Neutron Reflectometry of Nickel Corrosion Inhibitors, Langmuir 31 (2015) 7062-7072.
DOI: 10.1021/acs.langmuir.5b01718
Google Scholar
[2]
H. Liu, N. Li, S. Bi, D. Li, Z. Zou, Effect of organic additives on the corrosion resistance properties of electroless nickel deposits, Thin Solid Films 516 (2008) 1883-1889.
DOI: 10.1016/j.tsf.2007.10.008
Google Scholar
[3]
K.F. Khaled, M.A. Amin, Computational and electrochemical investigation for corrosion inhibition of nickel in molar nitric acid by piperidines, J. Appl. Electrochem. 38 (2008) 1609-1621.
DOI: 10.1007/s10800-008-9604-5
Google Scholar
[4]
M. Abdallah, A.Y. El-Etre, Corrosion Inhibition of Nickel in Sulfuric Acid Using Tween Surfactants, Portugaliae Electrochim. Acta 21 (2003) 315-326.
DOI: 10.4152/pea.200304315
Google Scholar
[5]
A.S. Fouda, H. Tawfik, N.M. Abdallah, A.M. Ahmd, Corrosion Inhibition of Nickel in HCl Solution by Some Indole Derivatives, Int. J. Electrochem. Sci. 8 (2013) 3390-3405.
Google Scholar
[6]
Khaled, K.F.: Electrochemical behavior of nickel in nitric acid and its corrosion inhibition using some thiosemicarbazone derivatives. Electrochim. Acta 55(19) (2010) 5375-5383.
DOI: 10.1016/j.electacta.2010.04.079
Google Scholar
[7]
S. Karthikeyan, Drugs/Antibiotics as potential corrosion inhibitors for Metals - A Review, Int. J. ChemTech Res. 9(06) (2016) 251-259.
Google Scholar
[8]
D.A. Balkrishna, R.S. Dubey, Corrosion inhibition of mild steel by ceftriaxone in 1 M sulfuric acid medium, Int. J. Curr. Res. 8(01) (2016) 25260-25265.
Google Scholar
[9]
X.H. Pang, M. Gong, Y.X. Zhang, Q. Wei, B.R. Hou, Corrosion inhibition and mechanism of mild steel in hydrochloric acid by ceftriaxone and amoxicillin, Sci. China Chem. 54(9) (2011) 1529-1536.
DOI: 10.1007/s11426-011-4332-9
Google Scholar
[10]
H.Z. AL-Sawaad, Evaluation of the ceftriaxone as corrosion inhibitor for carbon steel alloy in 0.5 M of hydrochloric acid, Int. J. Electrochem. Sci. 8 (2013) 3105-3120.
Google Scholar
[11]
S.K. Shukla, M.A. Quraishi, Ceftriaxone: a novel corrosion inhibitor for mild steel in hydrochloric acid, J. Appl. Electrochem. 39 (2009) 1517-1523.
DOI: 10.1007/s10800-009-9834-1
Google Scholar
[12]
S.A. El Wanees, M.I. Alahmdi, A.A. Hathoot, S. Shaltoot, Ceftriaxone as an inhibitor for corrosion of Al in formic acid solutions, Chem. Process Eng. Res. 39 (2015) 13-26.
Google Scholar
[13]
D.A. Duca, M.L. Dan, N. Vaszilcsin, Reuse of expired cefort drug in copper electrodeposition from acid bath, Annals of University of Oradea, Fascicle Environmental Protection, 27 (2016), 229-236.
DOI: 10.19261/cjm.2017.402
Google Scholar
[14]
K. Parfitt, The complete drug reference, Thirty-second edition, Pharmaceutical Press USA, 1999, p.175.
Google Scholar
[15]
M. Dan, N. Vaszilcsin, M. Labosel, B. Pancan, Expired Zosyn Drug as Corrosion Inhibitor for Carbon Steal in Sodium Chloride Solution, Chem. Bull. POLITEHNICA, Univ. (Timisoara) 59 (73) 1 (2014) 13-18.
Google Scholar
[16]
A. Jakab, N. Vaszilcsin, F. Manea, M. Dan, Effect of amines as proton vectors on catalytic hydrogen evolution reaction on copper, Studia UBB Chemia 60 (3) (2015) 63-77.
Google Scholar