In-situ Quantification of Nanoparticles Oxidation: A Fixed Energy X-ray Absorption Approach

Berretti, Enrico; Giaccherini, Andrea; Montegrossi, Giordano; D'Acapito, Francesco; DI BENEDETTO, Francesco; Zafferoni, Claudio; Puri, Alessandro; Lepore, GIOVANNI ORAZIO; Miller, Hamish; Giurlani, Walter; Innocenti, Massimo; Vizza, Francesco; Lavacchi, Alessandro

doi:10.3390/catal9080659

The oxidation of palladium nanoparticles causes the performance degradation of alkaline direct ethanol fuel cells. Quantifying this oxidation is a task of tremendous importance to design mitigation strategies that extend the service life of catalysts and devices. Here, we show that the Fixed Energy X-ray Absorption Voltammetry (FEXRAV) can provide this information with an in-situ approach. To do so, we have developed a quantification method that assumes the linear response at fixed energy. With this method, we have investigated the oxidation of carbon black-supported palladium electrocatalysts during cyclic voltammetry in the same solution employed as a fuel in the direct ethanol fuel cells. We have shown that up to 38% of the palladium is oxidised at 1.2 V vs. RHE and that such oxidation also happens at lower potentials that the catalyst can experience in real direct ethanol fuel cells. The result of this study is a proof of concept of quantitative FEXRAV.

In-situ Quantification of Nanoparticles Oxidation: A Fixed Energy X-ray Absorption Approach / Enrico Berretti; Andrea Giaccherini; Giordano Montegrossi; Francesco D'Acapito; Francesco Di Benedetto; Claudio Zafferoni; Alessandro Puri; Giovanni Orazio Lepore; Hamish Miller; Walter Giurlani; Massimo Innocenti; Francesco Vizza; Alessandro Lavacchi. - In: CATALYSTS. - ISSN 2073-4344. - ELETTRONICO. - 9:(2019), pp. 1-12. [10.3390/catal9080659]