Tuning the activity of Pt alloy electrocatalysts by means of the lanthanide contraction.
Identifieur interne : 000006 ( PubMed/Curation ); précédent : 000005; suivant : 000007Tuning the activity of Pt alloy electrocatalysts by means of the lanthanide contraction.
Auteurs : María Escudero-Escribano [États-Unis] ; Paolo Malacrida [Danemark] ; Martin H. Hansen [Danemark] ; Ulrik G. Vej-Hansen [Danemark] ; Amado Velázquez-Palenzuela [Danemark] ; Vladimir Tripkovic [Danemark] ; Jakob Schi Tz [Danemark] ; Jan Rossmeisl [Danemark] ; Ifan E L. Stephens [États-Unis] ; Ib Chorkendorff [Danemark]Source :
- Science (New York, N.Y.) [ 1095-9203 ] ; 2016.
Abstract
The high platinum loadings required to compensate for the slow kinetics of the oxygen reduction reaction (ORR) impede the widespread uptake of low-temperature fuel cells in automotive vehicles. We have studied the ORR on eight platinum (Pt)-lanthanide and Pt-alkaline earth electrodes, Pt5M, where M is lanthanum, cerium, samarium, gadolinium, terbium, dysprosium, thulium, or calcium. The materials are among the most active polycrystalline Pt-based catalysts reported, presenting activity enhancement by a factor of 3 to 6 over Pt. The active phase consists of a Pt overlayer formed by acid leaching. The ORR activity versus the bulk lattice parameter follows a high peaked "volcano" relation. We demonstrate how the lanthanide contraction can be used to control strain effects and tune the activity, stability, and reactivity of these materials.
DOI: 10.1126/science.aad8892
PubMed: 27034369
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<front><div type="abstract" xml:lang="en">The high platinum loadings required to compensate for the slow kinetics of the oxygen reduction reaction (ORR) impede the widespread uptake of low-temperature fuel cells in automotive vehicles. We have studied the ORR on eight platinum (Pt)-lanthanide and Pt-alkaline earth electrodes, Pt5M, where M is lanthanum, cerium, samarium, gadolinium, terbium, dysprosium, thulium, or calcium. The materials are among the most active polycrystalline Pt-based catalysts reported, presenting activity enhancement by a factor of 3 to 6 over Pt. The active phase consists of a Pt overlayer formed by acid leaching. The ORR activity versus the bulk lattice parameter follows a high peaked "volcano" relation. We demonstrate how the lanthanide contraction can be used to control strain effects and tune the activity, stability, and reactivity of these materials.</div>
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<Abstract><AbstractText>The high platinum loadings required to compensate for the slow kinetics of the oxygen reduction reaction (ORR) impede the widespread uptake of low-temperature fuel cells in automotive vehicles. We have studied the ORR on eight platinum (Pt)-lanthanide and Pt-alkaline earth electrodes, Pt5M, where M is lanthanum, cerium, samarium, gadolinium, terbium, dysprosium, thulium, or calcium. The materials are among the most active polycrystalline Pt-based catalysts reported, presenting activity enhancement by a factor of 3 to 6 over Pt. The active phase consists of a Pt overlayer formed by acid leaching. The ORR activity versus the bulk lattice parameter follows a high peaked "volcano" relation. We demonstrate how the lanthanide contraction can be used to control strain effects and tune the activity, stability, and reactivity of these materials.</AbstractText>
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