Atomistic insights into chloride-induced depassivation mechanisms of protective Cu2O films in marine environments

Copper (Cu) is widely utilized in industrial and marine engineering due to its exceptional thermal and electrical conductivity. In alkaline environments, a passivation layer, primarily composed of Cu2O, forms on copper surfaces, effectively inhibiting corrosion. However, in marine environments, this protective film becomes vulnerable to attack by aggressive Cl- ions, leading to film detachment. Overall, this work clarifies the breakdown mechanism of passive films on copper and provides a critical theoretical basis for designing corrosion-resistant Cu-based alloys used in marine environments.