The formation of bimetallic noble m

The formation of bimetallic noble metal nanostructures provides an effective way of realizing enhanced catalytic, optical and electronic properties compared to their single counterparts [6]. As a result, the composites of bimetallic noble metals and graphene nanosheets have become a hot research topic recently [115–129]. Various kinds of bimetallic nanomaterials, such as Au–Pt, Pt–Pd,Pt–Ru, Au–Pd, Pt–Ag, Pd–Ag and Pd–Ru, have been successfully assembled on the surface of graphene or its derivatives [115–129]. For example, Pt–Pd bimetallic nanodendrites have been loaded on graphene nanosheets, which demonstrated enhanced catalytic properties (Fig. 5a) [116]. Pt–Ru NP decorated graphene nanosheets with high catalytic activity toward methanol oxidation were prepared by reduction of PtCl2 and RuCl3 in the presence of tetraoctylammonium hydrotriethylborate and subsequent thermal annealing in an atmosphere of H2/N2 [118]. Moreover, other bimetallic nanomaterials, such as Au–Pd, Pt–Ag, Pd–Ag and Pd–Ru, have also been loaded onto the surface of graphene or its derivatives [115,117,119–129]. Interestingly, pre synthesizedhollowflower-like Au–Pd NPs were assembled on ionic liquid-grafted graphene sheets
via the electrostatic interaction [119]. In addition, by using a simple one-step reducing method, core–shell structures of Au–Pd NPs were synthesized in situ and well-distributed on the graphene surface [128]. In a recent report, graphene nanosheets decorated with Pd–
Ag nanorings were prepared by the galvanic displacement reaction between the pre-synthesized Ag NPs and Pd ions (Fig. 5b) [129].