| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1274236 | International Journal of Hydrogen Energy | 2013 | 8 Pages |
•Vertically aligned bamboo-shaped carbon nanofibers were directly grown on the carbon paper.•Pt nanodendrites were highly dispersed on the surface of bamboo-shaped carbon nanofibers.•Pt nanodendrites and carbon nanofibers exhibited better stability and higher ORR activity than the commercial Pt/C.
In order to improve the Pt utilization and enhance their catalytic performance in fuel cells, a novel composite electrode composed of single-crystalline Pt nanodendrites and support constructed by bamboo-shaped carbon nanofiber arrays (CNFAs) on carbon paper, is reported. This electrode is designed by growing vertically CNFAs on carbon paper via plasma enhanced chemical vapor deposition, followed by the direct synthesis of Pt nanodendrites using a simple surfactant-free aqueous solution method. Electron microscopy studies reveal that the Pt nanodendrites are uniformly high dispersed and anchored on the surface of CNFAs. Electrochemical measurements demonstrate that the resultant electrode exhibits higher electrocatalytic activity and stability for oxygen reduction reaction than commercial Pt/C catalyst, suggesting its potential application in fuel cells.
