Journal
NANO LETTERS
Volume 22, Issue 1, Pages 246-254Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.nanolett.1c03704
Keywords
Palladium-nickel alloy; alkaline fuel-cell; oxygen reduction reaction; Pt-free electrocatalyst; enhanced stability
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Funding
- UGC (India)
- CSIR, India
- SERB, India [CRG/2021/001420]
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In this study, ultrathin twisty PdNi-alloy nanowires were found to exhibit a very low reaction overpotential and long-term stability in alkaline media, with a mass activity over 10 times higher than fresh commercial Pt/C. The introduction of Ni improves the catalytic performance of Pd, and the twisty nanowire morphology provides stability and prevents detachment.
Even though the anion exchange membrane fuel cells have many advantages, the stability of their electrocatalysts for oxygen reduction reaction (ORR) has remained remarkably poor. We report here on the ultrathin twisty PdNi-alloy nanowires (NWs) exhibiting a very low reaction overpotential with an E-1/2 similar to 0.95 V versus RHE in alkaline media maintained over 200 K cycles, the highest ever recorded for an electrocatalyst. The mass activity of the used NWs is >10 times higher than fresh commercial Pt/C. Therein, Ni improves the Pd d-band center for a more efficient ORR, and its leaching continuously regenerates the surface active sites. The twisty nanowire morphology imparts multiple anchor points on the electrode surface to arrest their detachment or coalescence and extra stability from self-entanglement. The significance of the NW morphology was further confirmed from the high-temperature durability studies. The study demonstrates that tailoring the number of contact points to the electrode-surface may help realize commercial-grade stability in the highly active electrocatalysts.
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