A Review on Irradiated Si-Surface for 2D-Materials Corrosion Inhibitors Applications

Abstract

A better understanding comes from the AFM surface investigation of irradiated silicon for application as corrosion inhibitors. A Si-surface coated with 2D materials like MoS2, graphene, MXene, MnS, SnxSy family, 2D-transition metal dichalcogenides (2D-TMDs), transition metal chalcogenides (TMCs) and 2D-layered double hydroxides (2D-LDH) nanomaterials can be used for surface protection in modern Industry 4.0 where humidity and corrosive gas pollutants plays a significant role. The role of hydrated molecule complex or ion detection sensors due to their electronic transport phenomenon and high oxygen affinity at the interfaces nearby surface is also a supportive escort. Irradiated surfaces which are coated with complex 2D metal oxide-based nanomaterials show super inhibiting properties. Ar-ion beam induced low energy irradiaton effect on silicon or metal surface holds a firm layer protection of metals underneath and has a longer life compared to general treatments. This review elaborate the interaction of atoms and ripples on Si-substrate for harmful corrosions through AFM micrographs.