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Highly stable cathodes for proton exchange membrane fuel cells: Novel carbon supported Au@PtNiAu concave octahedral core-shell nanocatalyst

dc.creatorFeng H., Luo Y., Yan B., Guo H., He L., Qun Tian Z., Tsiakaras P., Kang Shen P.en
dc.date.accessioned2023-01-31T07:37:49Z
dc.date.available2023-01-31T07:37:49Z
dc.date.issued2022
dc.identifier10.1016/j.jcis.2022.06.115
dc.identifier.issn00219797
dc.identifier.urihttp://hdl.handle.net/11615/71522
dc.description.abstractDespite the remarkable research efforts, the lack of ideal activity and state-of-the-art electrocatalysts remains a substantial challenge for the global application of fuel cell technology. Herein, is reported the synthesis of Au@PtNiAu concave octahedral core-shell nanocatalysts (Au@PtNiAu-COCS) via solvothermal synthesis modification and optimization approach. The special structure generating a large number of step atoms, enhancing the oxygen reduction reaction (ORR) and methanol oxidation reaction (MOR) activity and stability. The superior ORR mass activity of the Au@PtNiAu-COCS is 11.22 times than the exhibited of Pt/C initially by Pt loading, and 5.11 times by Pt + Au loading. After 30 k cycles the mass activity remains 78.8% (8.83 times the initial Pt/C activity) and the half-wave potential only shifts 12 mV. Au@PtNiAu-COCS has superior half-cell activity and gives ideal membrane electrode assemblies. Furthermore, for MOR the Au@PtNiAu-COCS show enhanced anti-toxic (tolerant) ability in CO. This work provides a new strategy to develop core-shell structure nanomaterials for electrocatalysis. © 2022 Elsevier Inc.en
dc.language.isoenen
dc.sourceJournal of Colloid and Interface Scienceen
dc.source.urihttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85134193778&doi=10.1016%2fj.jcis.2022.06.115&partnerID=40&md5=b538922085ff928c20c6c4a8a76faa55
dc.subjectCarbonen
dc.subjectElectrocatalysisen
dc.subjectElectrocatalystsen
dc.subjectElectrodesen
dc.subjectElectrolytic reductionen
dc.subjectMethanolen
dc.subjectOxygenen
dc.subjectProton exchange membrane fuel cells (PEMFC)en
dc.subjectShells (structures)en
dc.subjectConcave octahedral core-shellen
dc.subjectCore shellen
dc.subjectHighly stablesen
dc.subjectMass activityen
dc.subjectMethanol oxidation reactionsen
dc.subjectNano-catalysten
dc.subjectOctahedral coresen
dc.subjectOxygen reduction reactionen
dc.subjectProton-exchange membranes fuel cellsen
dc.subjectSolvothermal synthesisen
dc.subjectNanocatalystsen
dc.subjectcarbonen
dc.subjectcetrimonium chlorideen
dc.subjectgolden
dc.subjectgold chlorideen
dc.subjectmethanolen
dc.subjectprotonen
dc.subjectmetal nanoparticleen
dc.subjectArticleen
dc.subjectatomic emission spectrometryen
dc.subjectcatalysisen
dc.subjectcatalytic efficiencyen
dc.subjectcell activityen
dc.subjectchemical compositionen
dc.subjectchemical reaction kineticsen
dc.subjectcomparative studyen
dc.subjectcurrent densityen
dc.subjectcyclic voltammetryen
dc.subjectDNA purificationen
dc.subjecthigh temperatureen
dc.subjectintrinsic activityen
dc.subjectnanocatalysten
dc.subjectoxidation reduction reactionen
dc.subjectroom temperatureen
dc.subjectsample sizeen
dc.subjectscanning transmission electron microscopyen
dc.subjectsynthesisen
dc.subjectX ray diffractionen
dc.subjectX ray photoemission spectroscopyen
dc.subjectchemistryen
dc.subjectelectrodeen
dc.subjectoxidation reduction reactionen
dc.subjectCarbonen
dc.subjectElectrodesen
dc.subjectMetal Nanoparticlesen
dc.subjectOxidation-Reductionen
dc.subjectProtonsen
dc.subjectAcademic Press Inc.en
dc.titleHighly stable cathodes for proton exchange membrane fuel cells: Novel carbon supported Au@PtNiAu concave octahedral core-shell nanocatalysten
dc.typejournalArticleen


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