Abstract

The large-scale practical application of fuel cells will be difficult to realize if the expensive platinum-based electrocatalysts for oxygen reduction reactions (ORRs) cannot be replaced by other efficient, low-cost, and stable electrodes. Here, we report that vertically aligned nitrogen-containing carbon nanotubes (VA-NCNTs) can act as a metal-free electrode with a much better electrocatalytic activity, long-term operation stability, and tolerance to crossover effect than platinum for oxygen reduction in alkaline fuel cells. In air-saturated 0.1 molar potassium hydroxide, we observed a steady-state output potential of –80 millivolts and a current density of 4.1 milliamps per square centimeter at –0.22 volts, compared with –85 millivolts and 1.1 milliamps per square centimeter at –0.20 volts for a platinum-carbon electrode. The incorporation of electron-accepting nitrogen atoms in the conjugated nanotube carbon plane appears to impart a relatively high positive charge density on adjacent carbon atoms. This effect, coupled with aligning the NCNTs, provides a four-electron pathway for the ORR on VA-NCNTs with a superb performance.

Keywords

PlatinumCarbon nanotubeMaterials scienceElectrodeCarbon fibersNitrogenOxygenNanotubePotassium hydroxideNanotechnologyElectrochemistryInorganic chemistryChemical engineeringChemistryCatalysisComposite materialOrganic chemistryComposite number

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Publication Info

Year
2009
Type
article
Volume
323
Issue
5915
Pages
760-764
Citations
7044
Access
Closed

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Kuanping Gong, Feng Du, Zhenhai Xia et al. (2009). Nitrogen-Doped Carbon Nanotube Arrays with High Electrocatalytic Activity for Oxygen Reduction. Science , 323 (5915) , 760-764. https://doi.org/10.1126/science.1168049

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DOI
10.1126/science.1168049