A review of bipolar plates materials and graphene coating degradation mechanism in proton exchange membrane fuel cell

Proton exchange membrane fuel cells (PEMFCs) have the perception to strongly reduce global emissions through an environmentally friendly perspective. Graphene has drawn global attention and has positioned itself as a potential material for bipolar plates application. This study reviews the application of graphene and summarizes the degradation of graphene coating that has become a significant issue in the improvement of PEMFC's performance. In the analysis, the degradation and its dissolution processes are presented. The need to improve the material selection focused mitigation on fabrication defects that act as initiation sites for graphene coating degradation is recommended. Finally, this review through recommendation endeavors to prevent graphene coating degradation and reduces high costs associated with the replacement of bipolar plates in the PEMFCs.

Automated summary

This study examines the degradation of graphene coating in PEMFCs and suggests improving material selection to mitigate degradation. The goal is to prevent graphene coating degradation and reduce the high costs associated with replacing bipolar plates in PEMFCs.