Hollow AuxAg/Au core/shell nanospheres as efficient catalysts for electrooxidation of liquid fuels
Hui Xu a, Jin Wang a, Bo Yan a, Ke Zhang a, Shumin Li a, Caiqin Wang a,b,Yukihide Shiraishi c, Yukou Du *a,c(杜玉扣) and Ping Yanga
aCollege of Chemistry, Chemical Engineering and Materials Science,
Soochow University, Suzhou 215123, PR China
bChemistry Department, University of Toronto, Toronto M5S3H4, Canada
cTokyo University of Science Yamaguchi, Sanyo-Onoda-shi, Yamaguchi 756-0884,Japan
Nanoscale, 2017, 9, 12996--13003
One plausible approach to endow nanocrystals with both enhanced catalytic activity and stability for the electrooxidation of liquid fuels is to chemically control the crystal structures of nanoparticles. To date, core–shell and alloy structures have been demonstrated to offer generally two precious opportunities to design highly efficient nanocatalysts for the electrooxidation reaction of organic molecules. We herein combine these two advantages and develop a general method to successfully synthesize hollow AuxAg/Au core/shell nanospheres with a high yield approaching 100% via a combined seed mediated and galvanic replacement method. The results from the electrochemical measurements have revealed that this as-obtained hollow AuxAg/Au core/shell nanosphere exhibited considerably high electrocatalytic performance towards ethylene glycol and glycerol oxidation with mass activity of 4585 and 3486 mA mgAu−1, which were 5.3- and 5.8-fold higher than that of pure Au. We trust this strategy may be extended to the syntheses of other multimetallic nanocatalysts with such fascinating nanostructures and the as-obtained hollow AuxAg/Au core/shell nanospheres can be well applied to serve as highly desirable anode catalysts for the electrooxidation of ethylene glycol and glycerol.
链接:http://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr04409g#!divAbstract