Organic Functionalized Nano-Fe O Hybrid Inhibitor for Enhancing the Anticorrosion Performance of Carbon Steel

Development of novel corrosion inhibitors is important for improving the anticorrosion of carbon steel because the serious carbon steel corrosion causes enormous economic losses to humankind. In this work, we demonstrated the novel organic functionalized Fe O hybrid inhibitor for enhancing the anticorrosion performance of carbon steel. For this purpose, amino-Fe O nano-spheres (NH2–Fe O ) were prepared via solvothermal route, using FeCl .6H O as an iron source and 3-aminophenoxy-phthalonitrile as precursor. Then, the N,N-diethyl-3-amine methyl propionate (DM) was reacted with amino-Fe O nano-spheres to produce the organic functionalized nano-Fe O hybrid. The chemical composition and micro-structure of as-obtained organic functionalized Fe O hybrid were characterized and confirmed by Fourier transform infrared, X-ray diffraction, and scanning electron microscopy. Furthermore, the anticorrosion performance of carbon steel by addition of organic functionalized nano-Fe O inhibitor was investigated by AC impedance measurements and polarization curves. The research results showed that the organic functionalized nano-Fe O exhibited enhanced inhibition effect for carbon steel, which can be used as a new type of carbon steel corrosion inhibitor.