Cited time in webofscience Cited time in scopus

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dc.contributor.author Park, Jungwon -
dc.contributor.author Lee, Hyunjoon -
dc.contributor.author Bae, Young Eun -
dc.contributor.author Park, Kyoung Chul -
dc.contributor.author Ji, Hoon -
dc.contributor.author Jeong, Nak Cheon -
dc.contributor.author Lee, Min Hyung -
dc.contributor.author Kwon, Oh Joong -
dc.contributor.author Lee, Chang Yeon -
dc.date.available 2017-09-27T01:16:13Z -
dc.date.created 2017-09-27 -
dc.date.issued 2017-08 -
dc.identifier.issn 1944-8244 -
dc.identifier.uri http://hdl.handle.net/20.500.11750/4551 -
dc.description.abstract Active, stable electrocatalysts based on non-precious metals for the oxygen reduction reaction (ORR) and hydrogen evolution reaction (HER) are critical for the development of cost-effective, efficient renewable energy technologies. Here, Fe/Fe3C-embedded nitrogen-doped carbon was fabricated via pyrolysis of iron-porphyrin-encapsulated mesoporous metal-organic frameworks [PCN-333 (Fe), where "PCN" stands for "porous coordination network"] at 700 °C. The various characterization techniques confirmed that Fe- and Fe3C-containing Fe-N-C material (FeP-P333-700) was successfully prepared by pyrolysis of porphyrin-encapsulated PCN-333 (Fe). FeP-P333-700 exhibited superior electrocatalytic performance for the ORR and HER owing to the synergistic effect of Fe/Fe3C and Fe-N-C active sites. © 2017 American Chemical Society. -
dc.language English -
dc.publisher American Chemical Society -
dc.title Dual-Functional Electrocatalyst Derived from Iron-Porphyrin-Encapsulated Metal-Organic Frameworks -
dc.type Article -
dc.identifier.doi 10.1021/acsami.7b08786 -
dc.identifier.wosid 000409395500069 -
dc.identifier.scopusid 2-s2.0-85028671481 -
dc.identifier.bibliographicCitation ACS Applied Materials & Interfaces, v.9, no.34, pp.28758 - 28765 -
dc.description.isOpenAccess FALSE -
dc.subject.keywordAuthor iron carbide -
dc.subject.keywordAuthor metal organic frameworks -
dc.subject.keywordAuthor N-doped carbon -
dc.subject.keywordAuthor Fe-N-x -
dc.subject.keywordAuthor oxygen reduction reaction -
dc.subject.keywordAuthor hydrogen evolution reaction -
dc.subject.keywordAuthor high durability -
dc.subject.keywordPlus OXYGEN-REDUCTION REACTION -
dc.subject.keywordPlus HIGH-PERFORMANCE ELECTROCATALYSTS -
dc.subject.keywordPlus POROUS CARBON -
dc.subject.keywordPlus GRAPHENE OXIDE -
dc.subject.keywordPlus BIFUNCTIONAL ELECTROCATALYST -
dc.subject.keywordPlus NANOWIRE ARRAYS -
dc.subject.keywordPlus SURFACE-AREA -
dc.subject.keywordPlus CATALYST -
dc.subject.keywordPlus FE -
dc.subject.keywordPlus CATHODE -
dc.citation.endPage 28765 -
dc.citation.number 34 -
dc.citation.startPage 28758 -
dc.citation.title ACS Applied Materials & Interfaces -
dc.citation.volume 9 -
dc.description.journalRegisteredClass scie -
dc.description.journalRegisteredClass scopus -
dc.relation.journalResearchArea Science & Technology - Other Topics; Materials Science -
dc.relation.journalWebOfScienceCategory Nanoscience & Nanotechnology; Materials Science, Multidisciplinary -
dc.type.docType Article -
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Department of Physics and Chemistry Supramolecular Inorganic Chemistry Laboratory 1. Journal Articles

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