Efficient and clean synthesis of graphene supported platinum nanoclusters and its application in direct methanol fuel cell

The graphene supported platinum nanoclusters was synthesized by an efficient and clean method, in which graphene oxide and Pt ion precursor were reduced by ascorbic acid within one-step process. The obtained Pt nanoclusters attached graphene composite (PtNCs/graphene) was characterized by X-ray diffraction (XRD), field-emission scanning electron microscopy (FE-SEM), transmission electron microscopy (TEM) and energy dispersive X-ray spectroscopy (EDS), which can directly show that Pt nanoclusters successfully formed on graphene and well distributed on the edges and wrinkles of graphene sheets. The further electrochemical characterizations including cyclic voltammograms (CV), current–time methods indicated that PtNCs/graphene has significantly higher electrocatalytic activity and stability for methanol electrooxidation compared to the normal Vulcan XC-72 and graphite supported Pt nanoclusters, which will lead a further application as a new electrode material in direct methanol fuel cell (DMFC).

► Pt nanoclusters/graphene (PtNCs/graphene) was synthesized within one-step process. ► Environment friendly ascorbic acid was chosen as the reductant. ► The synthesized PtNCs/graphene show superior electrocatalytic activity to methanol. ► PtNCs/graphene show superior electrocatalytic stability in methanol electrooxidation.