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Understanding of CO2 electrochemical reduction reaction process via high temperature solid oxide electrolysers

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dc.contributor.authorYue, Xiangling
dc.contributor.authorIrvine, John Thomas Sirr
dc.contributor.editorEguchi, K.
dc.contributor.editorSinghal, S. C.
dc.date.accessioned2015-08-31T15:10:02Z
dc.date.available2015-08-31T15:10:02Z
dc.date.issued2015-07-17
dc.identifier213572949
dc.identifier4f75d4ab-6a88-4bfb-a9d3-c6a3a86de2a3
dc.identifier84938787590
dc.identifier.citationYue , X & Irvine , J T S 2015 , Understanding of CO 2 electrochemical reduction reaction process via high temperature solid oxide electrolysers . in K Eguchi & S C Singhal (eds) , 14th International Symposium on Solid Oxide Fuel Cells, SOFC 2015 . ECS Transactions , no. 1 , vol. 68 , Electrochemical Society , pp. 3535-3551 , ECS Conference on Electrochemical Energy Conversion & Storage with SOFC-XIV , Glasgow , United Kingdom , 26/07/15 . https://doi.org/10.1149/06801.3535ecsten
dc.identifier.citationconferenceen
dc.identifier.isbn9781607685395
dc.identifier.issn1938-5862
dc.identifier.otherORCID: /0000-0002-1986-9772/work/49052120
dc.identifier.otherORCID: /0000-0002-8394-3359/work/68280847
dc.identifier.urihttps://hdl.handle.net/10023/7374
dc.descriptionThe authors thank the University of St Andrews and RCUK Energy Supergen programme on H-Delivery and EPSRC Platform and Senior fellowship programs for funding.en
dc.description.abstractThe CO2 electrochemical reduction via SOEC was studied for a range of cathode materials in various operational conditions. The influences of the fuel gas composition, operating potential and temperature on cathode behavior are discussed and compared on different cathodes. The dissociative adsorption and surface diffusion of active species from CO2 reduction reaction was found to contribute dominantly to the LSCM-based cathode working in CO2-CO mixtures. Efforts were also made to obtain a high performance and durable cathode for high temperature CO2 electrolyser by employing a gradient LSCM-YSZ cathode and by adopting wet impregnation in cathode preparation. The latter was to more effective in enhancing the cathode electro-catalytic activity. A competitive cathode to Ni-YSZ cermet was fabricated by infiltrating 0.5wt% Pd and GDC into porous LSCM and YSZ layers.
dc.format.extent17
dc.format.extent517855
dc.language.isoeng
dc.publisherElectrochemical Society
dc.relation.ispartof14th International Symposium on Solid Oxide Fuel Cells, SOFC 2015en
dc.relation.ispartofseriesECS Transactionsen
dc.rights© The Electrochemical Society, Inc. 2015. All rights reserved. Except as provided under U.S. copyright law, this work may not be reproduced, resold, distributed, or modified without the express permission of The Electrochemical Society (ECS). The archival version of this work was published here https://dx.doi.org/10.1149/06801.3535ecsten
dc.subjectCatalyst activityen
dc.subjectCathodesen
dc.subjectCermetsen
dc.subjectElectrodesen
dc.subjectElectrolytic reductionen
dc.subjectFuel storageen
dc.subjectMetal drawingen
dc.subjectReductionen
dc.subjectRegenerative fuel cellsen
dc.subjectYttria stabilized zirconiaen
dc.subjectQD Chemistryen
dc.subjectNDASen
dc.subject.lccQDen
dc.titleUnderstanding of CO2 electrochemical reduction reaction process via high temperature solid oxide electrolysersen
dc.typeConference itemen
dc.contributor.sponsorEPSRCen
dc.contributor.sponsorEPSRCen
dc.contributor.sponsorThe Royal Societyen
dc.contributor.sponsorEPSRCen
dc.contributor.institutionUniversity of St Andrews.School of Chemistryen
dc.contributor.institutionUniversity of St Andrews.EaSTCHEMen
dc.identifier.doi10.1149/06801.3535ecst
dc.identifier.grantnumberEP/D07259X/1en
dc.identifier.grantnumberEP/G01244X/1en
dc.identifier.grantnumberWRMA 2012/R2en
dc.identifier.grantnumberEP/K015540/1en


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