Nanohybrid layered double hydroxide materials as efficient catalysts for methanol electrooxidation

In this work, efficient methanol oxidation fuel cell catalysts with excellent stability in alkaline media have been synthesized by including transition metals to the layered double hydroxide (LDH) nanohybrids. The nanohybrids CoCr-LDH, NiCoCr-LDH and NiCr-LDH were prepared by co-precipitation and th...

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Veröffentlicht in:RSC advances 2019-01, Vol.9 (24), p.13503-13514
Hauptverfasser: Gamil, Shimaa, El Rouby, Waleed M A, Antuch, Manuel, Zedan, I T
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Sprache:eng
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Zusammenfassung:In this work, efficient methanol oxidation fuel cell catalysts with excellent stability in alkaline media have been synthesized by including transition metals to the layered double hydroxide (LDH) nanohybrids. The nanohybrids CoCr-LDH, NiCoCr-LDH and NiCr-LDH were prepared by co-precipitation and their physicochemical characteristics were investigated using TEM, XRD, IR and BET analyses. The nanohybrid CoCr-LDH is found to have the highest surface area of 179.87 m g . The electrocatalytic activity measurements showed that the current density was increased by increasing the methanol concentration (from 0.1 to 3 M) as a result of its increased oxidation at the surface. The nanohybrid NiCr-LDH, showing the highest pore size (55.5 Å) showed the highest performance for methanol oxidation, with a current density of 7.02 mA cm at 60 mV s using 3 M methanol. In addition, the corresponding onset potential was 0.35 V (at 60 mV s using 3 M methanol) which is the lowest value among all other used LDH nanohybrids. Overall, we observed the following reactivity order: NiCr-LDH > NiCoCr-LDH > CoCr-LDH, as derived from the impedance spectroscopy analysis.
ISSN:2046-2069
2046-2069
DOI:10.1039/c9ra01270b