Graphene outperforms polymer coatings in preventing microbially induced corrosion

An international research team, which included scientists from Rensselaer Polytechnic Institute, South Dakota School of Mines and Technology, Oklahoma State University, and Shenyang National Lab for Materials Science, showed that graphene can act as a promising surface coating that can be used to minimize metallic corrosion under harsh microbial conditions, and graphene coating offers 100-fold improvement in corrosion resistance compared to commercial polymer coatings available in the market while being nearly 4000 times thinner than several commercial coatings.

The researchers investigated how the microbial communities that colonize the protection system can affect the corrosion rates. Furthermore, they have used the graphene coating as a benchmark to compare to other popular polymer coatings such as Parylene and Polyurethane. Those coatings were initially promising, but failed due to various reasons including microbial attack fermentation, acid production etc. and the non-conformity of hand-applied coatings. The graphene coated Ni, however, maintained its integrity without noticeable surface corrosion.

The next stages of the team's investigations are to test these coatings for other technologically relevant metals including mild steel. They plan to evaluate graphene coatings for flat metal sheets typical to the construction industry, and also aggressive atmospheric conditions.

Posted: Oct 14,2015 by Roni Peleg