dc.contributor.author
Barwe, Stephan
dc.contributor.author
Andronescu, Corina
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Masa, Justus
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Ventosa, Edgar
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Klink, Stefan
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Genç, Aziz
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Arbiol i Cobos, Jordi
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Schuhmann, Wolfgang
dc.identifier
https://ddd.uab.cat/record/194900
dc.identifier
urn:10.1002/cssc.201700593
dc.identifier
urn:oai:ddd.uab.cat:194900
dc.identifier
urn:scopus_id:85019873057
dc.identifier
urn:articleid:1864564Xv10n12p2653
dc.identifier
urn:wos_id:000403934400015
dc.identifier
urn:altmetric_id:20475774
dc.identifier
urn:icn2uab:6089707
dc.description.abstract
In addition to catalytic activity, intrinsic stability, tight immobilization on a suitable electrode surface, and sufficient electronic conductivity are fundamental prerequisites for the long-term operation of particle- and especially powder-based electrocatalysts. We present a novel approach to concurrently address these challenges by using the unique properties of polybenzoxazine (pBO) polymers, namely near-zero shrinkage and high residual-char yield even after pyrolysis at high temperatures. Pyrolysis of a nanocubic prussian blue analogue precursor (Km Mnx [Co(CN)₆]y⋅nH₂O) embedded in a bisphenol A and aniline-based pBO led to the formation of a N-doped carbon matrix modified with MnxCoyOz nanocubes. The obtained electrocatalyst exhibits high efficiency toward the oxygen evolution reaction (OER) and more importantly a stable performance for at least 65 h.
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application/pdf
dc.relation
Ministerio de Economía y Competitividad MAT2014-59961-C2-2-R
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Ministerio de Economía y Competitividad SEV-2013-0295
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Agència de Gestió d'Ajuts Universitaris i de Recerca 2014/SGR-1638
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ChemSusChem ; Vol. 10, issue 12 (June 2017), p. 2653-2659
dc.rights
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dc.rights
https://rightsstatements.org/vocab/InC/1.0/
dc.subject
Catalyst stability
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Electrocatalysis
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Oxygen evolution reaction
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Polybenzoxazine
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Prussian blue analogue
dc.title
Polybenzoxazine-derived N-doped carbon as matrix for powder-based electrocatalysts
