Graphene coating of Nafion(R) membranes for enhanced fuel cell performance

Abstract

Electrochemically exfoliated graphene (e-G) thin films on Nafion(R) membranes exhibit a selective barrier effect against undesirable fuel crossover. The approach combines the high proton conductivity of state-of-the-art Nafion(R) and the ability of e-G layers to effectively block the transport of methanol and hydrogen. Nafion(R) membranes are coated with aqueous dispersions of e-G on the anode side, making use of a facile and scalable spray process. Scanning transmission electron microscopy (STEM) and electron energy-loss spectroscopy (EELS) confirm the formation of a dense percolated graphene flake network which acts as diffusion barrier. The maximum power density in direct methanol fuel cell (DMFC) operation with e-G coated Nafion(R) N115 is 3.9 times higher than the Nafion(R) N115 reference (39 vs. 10 mW cm-2 @ 0.3 V) at 5M methanol feed concentration. This suggests the application of e-G coated Nafion(R) membranes for portable DMFCs, where the use of highly concentrated methanol is desirable.