InMgO-NPs coating for Corrosion Protection of Steel Pipeline
Abstract
The current study used a pulse laser ablation in liquid (PLAL) method to create colloidal InMgO-NPs. The performance of nanoparticles was examined through: X-Ray Diffraction Pattern Measurement, UV-VIS Spectroscopy (Transmittance), and energy dispersive spectrum ( EDS) analysis confirmed the influence of indium content on the primary, morphological, and optical properties of MgO-NPs. The distribution of nanoparticles size was examined using dispersion was examined by electronic microscopy (SEM). The optical conveyance of InMnO-NPs in the visible region, and the bandgap esteem varied between 3.7 and 3.25 eV. According to the XRD data, In doped MgO retained a hexagonal wurtzite structure with a (002) specific orientation. From (SEM) a flowers and rods (MgO-NPs) structure with ~ (2.7 - 3.1) µm diameters were shows,while, flakes IMgO-NPs at ([In3+] = 8%) the nano-structures shows, and at ([In3+] = 25%) shows a slight nano-rods structures .This study aimed to performance of nanoparticles coating for development and Protection of gas pipelines.