Flowerlik Co3O4 microspheres Loaded with Copper Nanoparticle as an Efficient Bifunctional Catalyst for Lithium-Air Batteries > Publication | UNIST YK RESEARCH

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Publication

Flowerlik Co3O4 microspheres Loaded with Copper Nanoparticle as an Efficient Bifunctional Catalyst for Lithium-Air Batteries
Author
Wei Yang, Jason Salim, Chao Ma, Zhaohui Ma, Chunwen Sun, Jianqi Li, Liquan Chen, & Youngsik Kim
Journal
Electrochemistry Communications
Vol
28
Page
13-16
Year
2010-2013
Porous flowerlike Co3O4 microspheres/Cu nanoparticles composite has been synthesized via a combined solvothermal method, subsequent thermal treatment and polyol process. Due to the 3D mesoporous structure, the resulting Co3O4 microspheres/Cu catalyst shows an efficient and stable bifunctional catalytic activity. The cobalt oxide-based catalysts show better performance during the discharging and charging processes at a current density of 0.05 mA cm− 2 compared with that of the Vulcan XC-72. The cell with this novel catalyst can be reversibly charged/discharged and has a good cycle performance. The preliminary results indicate that the Porous flowerlike Co3O4 microspheres/Cu nanoparticles composite is a promising material for a metal/air battery or a PEM fuel cell as an efficient and stable bifunctional catalyst.