Improvement of catalytic performance of AuAg/C catalysts prepared by galvanic displacement technique for glycerol electrooxidation in alkaline medium

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Author list: Yongprapat S., Therdthianwong A., Therdthianwong S.

Publisher: Springer

Publication year: 2018

Journal: Journal of Applied Electrochemistry (0021-891X)

Volume number: 48

Issue number: 3

Start page: 317

End page: 328

Number of pages: 12

ISSN: 0021-891X

eISSN: 1572-8838

URL: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85041521071&doi=10.1007%2fs10800-018-1160-z&partnerID=40&md5=c3b2cbcab69dbc42833c1f51e78672b7

Languages: English-Great Britain (EN-GB)

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Abstract

Abstract: The activity and stability of AuAg/C electrocatalysts prepared by a galvanic displacement between Au3+ and Ag on carbon were investigated. First, Ag/C was prepared by citrate reduction in alkaline and used as the displaced material. The addition of Au3+ into the Ag/C resulted in smaller fragments of AuAg nanoparticles. These AuAg/C catalysts were prepared at four Au loadings ranging from 5 to 30%wt Au. Upon interaction with glycerol, the catalyst surface became an Au-rich surface, thereby activating the catalysts. The promotion effects of Ag, such as negative shifts of both an onset potential and a potential at maximum current density, were observed on the catalysts with low Au content but not on those with high Au content. The AuAg/C catalysts with low Au content were more active than the Au/C one despite the very much larger size of the metal particles on the AuAg/C catalysts. The most active catalysts were 5%AuAg/C and 10%AuAg/C, providing much higher mass normalized current densities in electrolytes containing 0.1 and 1 M glycerol, respectively. The final current density of 10%AuAg/C after 60 min in 1 M glycerol electrolyte was 445 mA mgAu −1, which was about 9 times higher than that of Au/C. A synergistic effect between Au and Ag improved the stability of the AuAg/C catalysts. Graphical Abstract: [Figure not available: see fulltext.]. © 2018, Springer Science+Business Media B.V., part of Springer Nature.

Keywords

Alkaline fuel cell, AuAg/C catalyst, Bimetallic, Galvanic displacement