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Designing high-performance quasi-symmetrical solid oxide cells with a facile chemical modification strategy for Sr2Fe2-xWxO6-δ ferrites electrodes with in situ exsolution of nanoparticles

creativework.datePublished2023
dc.contributor.authorZheng, Kun
dc.contributor.authorLach, Jakub
dc.contributor.authorCzaja, Paweł
dc.contributor.authorGogacz, Michał
dc.contributor.authorCzach, Patryk
dc.contributor.authorBrzoza-Kos, Agnieszka
dc.contributor.authorWiniarz, Piotr
dc.contributor.authorLuo, Jie
dc.contributor.departmentWydział Energetyki i Paliw
dc.date.available2024-02-28T08:13:44Z
dc.date.issued2023
dc.description.abstractThe chemical modification of perovskites is one of the most effective design strategies for electrode materials for solid oxide cells. In this work, the tungsten doping in $Sr_{2}Fe_{2−x}W_{x}O_{6−δ}$ shows a significant impact on their physicochemical properties, and it leads to a substantial change of electrochemical properties in the air and reducing conditions, with $Sr_{2}Fe_{1.8}W_{0.2}O_{6−δ}$ (Rp = 0.06 Ω cm2 at 800 °C stable for 100 h in air) and $Sr_{2}Fe_{1.6}W_{0.4}O_{6−δ}$ (Rp = 0.56 Ω cm2 at 800 °C over 100 h in 5 vol% $H_{2}/Ar$) being the best air and fuel electrode candidates, respectively. We have proposed an attractive design of high-performance quasi-symmetrical solid oxide cells with $80%Sr_{2}Fe_{1.8}W_{0.2}O_{6−δ}+20%GDC$ | LSGM | $80%Sr_{2}Fe_{1.6}W_{0.4}O_{6−δ}+20%GDC$, demonstrating excellent power outputs ($874 mW cm^{−2}$ at 850 °C in wet $H_{2}$) and good current density of 743 mA $cm^{−2}$ at 1.5 V in electrolysis mode at 750 °C. A good performance of 451 mW $cm^{−2}$ was also recorded in wet $CH_{4}$ at 800 °C. The in situ exsolved metallic iron nanoparticles decorated on the $Sr_{2}Fe_{1.6}W_{0.4}O_{6−δ}$ anode contribute to the excellent electrochemical performance of cells. This study provides a successful scenario for designing high-performance symmetrical solid oxide cells with a facile chemical modification strategy for ferrites electrodes with in situ exsolution of nanoparticles.en
dc.description.versionwersja wydawnicza
dc.identifier.doihttps://doi.org/10.1016/j.jpowsour.2023.233707
dc.identifier.urihttps://repo.agh.edu.pl/handle/AGH/106606
dc.language.isoeng
dc.relation.isbasedonhttps://doi.org/10.58032/AGH/OQVXMQ
dc.rightsAttribution 4.0 International
dc.rights.accessotwarty dostęp
dc.rights.urihttps://creativecommons.org/licenses/by/4.0/legalcode
dc.subjectSymmetrical solid oxide fuel cellpl
dc.subjectElectrode materials Perovskitespl
dc.subjectNanoparticlespl
dc.subjectIn situ exsolutionpl
dc.titleDesigning high-performance quasi-symmetrical solid oxide cells with a facile chemical modification strategy for Sr2Fe2-xWxO6-δ ferrites electrodes with in situ exsolution of nanoparticles
dc.title.relatedJournal of Power Sources
dc.typeartykuł
dspace.entity.typePublication
organization.identifier.ror03ha2q922
project.funder.nameNarodowe Centrum Nauki (NCN)
project.identifier2021/43/D/ST5/00824
project.nameProjektowanie niestechiometrycznych kationowo perowskitów podwójnych z nanokatalitycznym wydzielaniem in situ dla poprawy wydajności symetrycznych ogniw SOFC
project.program.nameSonata 17
publicationissue.issueNumbervol. 587
publicationissue.pagination233707
publicationvolume.volumeNumber2023
relation.isAuthorOfPublication91fa7b0f-11f0-43b9-a020-cae7e3a7b835
relation.isAuthorOfPublication132c4fae-736b-4a73-8b03-48f3707d45f7
relation.isAuthorOfPublication.latestForDiscovery91fa7b0f-11f0-43b9-a020-cae7e3a7b835
relation.isOrgUnitOfPublicationf2ffae00-dd3a-402a-9571-3a432c7f77f8
relation.isOrgUnitOfPublication.latestForDiscoveryf2ffae00-dd3a-402a-9571-3a432c7f77f8

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