Carbon_49_04_1118_1125.pdf 832 KB
Gotoh, Kazuma Okayama Univ Kaken ID
Kinumoto, Taro Oita Univ
Fujii, Eiji Ind Technol Ctr
Yamamoto, Aki Okayama Univ
Hashimoto, Hideki Okayama Univ
Ohkubo, Takahiro Okayama Univ
Itadani, Atsushi Okayama Univ
Kuroda, Yasushige Okayama Univ
Ishida, Hiroyuki Okayama Univ Kaken ID
We produced carbon hybrid materials of graphene sheets decorated with metal or metal oxide nanoparticles of gold, silver, copper, cobalt, or nickel from cation exchanged graphite oxide. Measurements using powder X-ray diffraction, transmission electron microscopy, and X-ray absorption spectra revealed that the Au and Ag in the materials (Au-Gr and Ag-Gr) existed on graphene sheets as metal nanoparticles, whereas Cu and Co in the materials (Cu-Gr and Co-Gr) existed as a metal oxide. Most Ni particles in Ni-Gr were metal, but the surfaces of large particles were partly oxidized, producing a core-shell structure. The Ag-Gr sample showed a catalytic activity for the oxygen reduction reaction in 1.0 M KOH aq. under an oxygen atmosphere. Ag-Gr is superior as a cathode in alkaline fuel cells, which should not be disturbed by the methanol cross-over problem from the anode. We established an effective approach to prepare a series of graphene-nanoparticle composite materials using heat treatment.
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