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Surface properties of Pt and PtCo electrocatalysts and their influence on the performance and degradation of high-temperature polymer electrolyte fuel cells (Articolo in rivista)
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- Label
- Surface properties of Pt and PtCo electrocatalysts and their influence on the performance and degradation of high-temperature polymer electrolyte fuel cells (Articolo in rivista) (literal)
- Anno
- 2010-01-01T00:00:00+01:00 (literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#doi
- 10.1021/jp104528q (literal)
- Alternative label
Antonino Salvatore Arico`; Alessandro Stassi; Irene Gatto; Giuseppe Monforte; Enza Passalacqua; Vincenzo Antonucci (2010)
Surface properties of Pt and PtCo electrocatalysts and their influence on the performance and degradation of high-temperature polymer electrolyte fuel cells
in Journal of physical chemistry. C; American Chemical Society, Washington (Stati Uniti d'America)
(literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#autori
- Antonino Salvatore Arico`; Alessandro Stassi; Irene Gatto; Giuseppe Monforte; Enza Passalacqua; Vincenzo Antonucci (literal)
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- ISI Web of Science (WOS) (literal)
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- Istituto di Tecnologie AVanzate per l'Energia \"Nicola Giordano\"-CNR-ITAE, Via Salita S. Lucia sopra
Contesse 5, 98126 Messina, Italy (literal)
- Titolo
- Surface properties of Pt and PtCo electrocatalysts and their influence on the performance and degradation of high-temperature polymer electrolyte fuel cells (literal)
- Abstract
- An investigation of the behavior of carbon-supported Pt and PtCo cathode electrocatalysts was carried out
with the aim to evaluate their performance and resistance to degradation under high temperature (110-130
°C) operation in a polymer electrolyte membrane fuel cell (PEMFC) based on a new ionomer membrane
(Aquivion). Nanosized Pt and PtCo catalysts with similar crystallite size (2.7-2.9 nm) were prepared by
using a colloidal route. A suitable degree of alloying and a face-centered-cubic (fcc) structure were obtained
for the PtCo catalysts by using a carbothermal reduction. The surface properties were investigated by X-ray
photoelectron spectroscopy (XPS) and low-energy ion scattering spectroscopy (LE-ISS, 3He+ at 1 kV). The
formation of a Pt skin layer on the surface of the alloy electrocatalyst was obtained by using a preleaching
procedure. Furthermore, the amount of Pt oxides on outermost atomic layers was much smaller in the PtCo
than in the Pt catalyst. These characteristics appeared to influence catalysts' performance and degradation.
Accelerated tests (electrochemical cycling) at 130 °C in a pressurized PEMFC showed a better stability for
the PtCo alloy as compared to Pt. Furthermore, better performance was obtained at high temperatures for the
preleached PtCo/C as compared to the Pt/C cathode catalyst. At a moderate pressure of 1.5 bar (abs), maximum
power densities of 800 and 700 mW cm-2 at 110 °C (H2-O2) were achieved for the PtCo cathode with 50%
and 25% relative humidity (RH), respectively, by using 0.3 mg Pt cm-2 loading. At high pressure of 3 bar
(abs), a maximum power density exceeding 1000 mW cm-2 was obtained at 130 °C and 100% RH (literal)
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