Novel chitosan-oligosaccharide derivatives as fluorescent green corrosion inhibitors for P110 steel.

In the exploitation of seawater resources, the transported pipelines are frequently corroded, resulting in economic losses and environmental pollution. The development of corrosion inhibitors is an effective measure to mitigate the corrosion of metals in seawater. In this work, novel chitosan oligosaccharide derivatives (CF) were synthesized as fluorescent eco-friendly corrosion inhibitor by modifying fluorescent monomers. The characterization of CF revealed excellent fluorescence intensity, promising the potential for on-line detection. The inhibition performance of CF on P110 in 3.5 wt% NaCl solution was investigated through experimental evaluation and theoretical analysis. The electrochemical measurements indicated that the corrosion inhibition efficiency was increased from 61.00 % to 91.19 % with the introduction of fluorane. Adsorption isotherm and XPS analysis demonstrated that CF is designed to protect metal by forming the composite film on P110 through physical and chemical adsorption. In addition, theoretical calculations revealed differences in the interaction energies, radial distribution functions and diffusion coefficients of inhibitors on the Fe (110) surface. These theoretical results aligned with the experiments and confirmed the excellent ability of CF in metal corrosion protection from the molecular perspective. This new chitosan derivative provides new possibilities for the development of the green composite inhibitor that allows on-line detection.