Graphene coating on a nickel-copper alloy (Monel 400) for microbial corrosion resistance: Electrochemical and surface characterizations

Graphene is an attractive 2D coating material because its remarkable physico-chemical properties enable numerous applications. Graphene coating was deposited on Monel 400 alloy by chemical vapour deposition (CVD) for corrosion resistance in a marine environment containing sulphate reducing bacteria (SRB). Surface morphology and coating characterization were performed using scanning electron microscopy (SEM) and Raman spectroscopy. Electrochemical results revealed that the multilayer graphene coating that replaced the native protective oxide layer on the Monel 400 surface provided superior corrosion resistance in the abiotic and biotic solutions. Post corrosion characterisation, using SEM and FTIR, supported the electrochemical findings.

Automated summary

The study demonstrates that graphene coating deposited on Monel 400 alloy surface by chemical vapour deposition can effectively enhance its corrosion resistance in a marine environment containing sulphate reducing bacteria. The coating, replacing the native protective oxide layer, shows superior corrosion resistance in both abiotic and biotic solutions. The post-corrosion characterization using SEM and FTIR supports the electrochemical results.