Nickel-rare earth (Ce, Sm, Dy) alloy electrodes for hydrogen peroxide reduction in direct liquid fuel cells

•Nickel-rare earth (Ce, Sm, Dy) alloys (5 and 10 at.% RE) were prepared by arc melting.•Alloys structure, morphology, and composition were characterized by SEM/EDXS and XRPD.•LSV and CA evaluated Ni-RE alloys’ activity for hydrogen peroxide reduction reaction.•HPRR in alkaline media proceeds with 1....

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Bibliographic Details
Published in:Materials research bulletin 2022-12, Vol.156, p.111982, Article 111982
Main Authors: Santos, D.M.F., Cardoso, D.S.P., Šljukić, B., Alsaiari, M., Harraz, F.A., Sequeira, C.A.C., Macciò, D., Saccone, A.
Format: Article
Language:English
Subjects:
Arc melting
Direct liquid fuel cells
Hydrogen peroxide reduction reaction
Nickel-rare earth alloys
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Summary:•Nickel-rare earth (Ce, Sm, Dy) alloys (5 and 10 at.% RE) were prepared by arc melting.•Alloys structure, morphology, and composition were characterized by SEM/EDXS and XRPD.•LSV and CA evaluated Ni-RE alloys’ activity for hydrogen peroxide reduction reaction.•HPRR in alkaline media proceeds with 1.7 electrons exchanged at Ni0.95Ce0.05 electrode.•Good performance of Ni0.95Ce0.05 alloy suggests application in direct liquid fuel cells. Hydrogen peroxide (H2O2), a reactive oxygen species, is an excellent alternative to oxygen as an oxidant for direct liquid fuel cells (DLFCs). To overcome problems related to scarcity and high cost of commonly used noble metal electrodes, nickel (Ni) and nickel-rare earth (RE = Ce, Sm, Dy) alloys are synthesised and evaluated as electrode materials for H2O2 reduction reaction (HPRR) in alkaline media. These Ni-RE alloys (containing 5 and 10 at.% RE metal) are produced by arc melting and analysed by X-ray diffraction and scanning electron microscopy coupled with energy-dispersive X-ray spectroscopy. Voltammetric and chronoamperometric measurements are employed to assess the performance of the Ni-RE alloys for HPRR in 2 M NaOH solution. The Ni0.95Ce0.05 alloy exhibits impressively high catalytic activity for HPRR, with a number of exchanged electrons of 1.7 and activation energy of 38 kJ mol−1, suggesting its application as cathode material in DLFCs. [Display omitted]
ISSN:0025-5408
1873-4227
DOI:10.1016/j.materresbull.2022.111982