Controllable synthesis of carbon nanofiber supported Pd catalyst for formic acid electrooxidation

Carbon nanofiber (CNF) supported Pd nanoparticles are synthesized with sodium citrate and sodium borohydride served as stabilizing agent and reducing agent, respectively. The size and distribution of the supported Pd nanoparticles are controlled by adjusting the pH value of the synthesis solution. A...

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Bibliographic Details
Published in:International journal of hydrogen energy 2012-05, Vol.37 (9), p.7373-7377
Main Authors: Qin, Yuan-Hang, Jia, Ya-Bo, Jiang, Yue, Niu, Dong-Fang, Zhang, Xin-Sheng, Zhou, Xing-Gui, Niu, Li, Yuan, Wei-Kang
Format: Article
Language:English
Subjects:
Alternative fuels. Production and utilization
Applied sciences
Carbon nanofiber
Catalysts
Energy
Exact sciences and technology
Formic acid oxidation
Fuels
Hydrogen
Nanofibers
Nanoparticles
Palladium
Particle size
Sodium
Synthesis
Trisodium citrate
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Summary:Carbon nanofiber (CNF) supported Pd nanoparticles are synthesized with sodium citrate and sodium borohydride served as stabilizing agent and reducing agent, respectively. The size and distribution of the supported Pd nanoparticles are controlled by adjusting the pH value of the synthesis solution. Analyses of the obtained Pd/CNF catalysts indicate that the supported Pd nanoparticles become more uniform in size and the average particle size is decreased from 5.85 to 3.62 nm with pH value of the synthesis solution increasing from 3.2 to 6.0. However, the further increasing of the pH value to 6.5 leads to an increased particle size and the formation of PdO phase in the synthesized Pd/CNF catalyst. The Pd/CNF catalyst synthesized at the pH value of 6.0 exhibits superior catalytic activity and stability for formic acid electrooxidation due to its small particle size and uniform size distribution. ► CNF supported Pd nanoparticles of varying particle size are synthesized. ► The Pd particle size varies with the pH value of the synthesis solution. ► Highly dispersed Pd/CNF catalyst exhibits good activity for formic acid oxidation.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2012.01.124