Polyaniline decorated graphene oxide on sulfonated poly(ether ether ketone) membrane for direct methanol fuel cells application

In direct methanol fuel cells (DMFC), methanol crossover is a major issue which has reduced the performance of polymer electrolyte membrane (PEM) for energy generation. In this study, graphene oxide (GO) and conductive polyaniline decorated GO (PANI-GO) were used as additives in fabrication of sulfonated poly(ether ether ketone) (SPEEK) nanocomposite PEM membrane to reduce methanol crossover. PANI-GO was synthesized by in situ polymerization method and the formation of PANI coated GO nanostructures was confirmed by surface morphology and crystallinity analysis. The membrane morphology and topography analysis confirmed that GO and PANI-GO were well dispersed on the surface of SPEEK membrane. 0.1 wt% PANI-GO modified SPEEK nanocomposite membrane exhibited the highest water uptake and ion exchange capacity of 40% and 1.74 meq g(-1), respectively. The oxidative stability of the nanocomposite membranes also improved. Lower methanol permeability of 4.33 x 10(-7) cm(-2)S(-1) was noticed for 0.1 wt% PANI-GO modified SPEEK membrane. PANI-GO modified SPEEK membrane enhanced the proton conductivity, which was due to the existence of acidic and hydrophilic group present in PANI and GO. PANI-GO modified SPEEK membrane held higher selectivity of 1.94 x 10(4) S cm(-3) s(-1). Overall, these studies revealed that PANI-GO modified SPEEK membrane is a potential material for DMFC applications.

Automated summary

Graphene oxide and conductive polyaniline coated graphene oxide were used as additives in sulfonated poly(ether ether ketone) nanocomposite membrane to reduce methanol crossover in direct methanol fuel cells. The modified membrane exhibited increased water uptake, ion exchange capacity, and proton conductivity, as well as improved oxidative stability and selectivity for DMFC applications.