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<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#" xmlns:dc="http://purl.org/dc/elements/1.1/"><rdf:Description rdf:about="https://dirros.openscience.si/IzpisGradiva.php?id=23842"><dc:title>Grain-resolved mapping of oxygen evolution activation on a Ni-superalloy</dc:title><dc:creator>Donik,	Črtomir	(Avtor)
	</dc:creator><dc:creator>Suhadolnik,	Luka	(Avtor)
	</dc:creator><dc:creator>Tomc,	Blaž	(Avtor)
	</dc:creator><dc:creator>Voronkin,	Anton	(Avtor)
	</dc:creator><dc:creator>Ustarroz,	Jon	(Avtor)
	</dc:creator><dc:creator>Bele,	Marjan	(Avtor)
	</dc:creator><dc:creator>Godec,	Matjaž	(Avtor)
	</dc:creator><dc:creator>Hodnik,	Nejc	(Avtor)
	</dc:creator><dc:subject>Ni-superalloy</dc:subject><dc:subject>IL-SEM</dc:subject><dc:subject>IL-EDS</dc:subject><dc:subject>SECCM</dc:subject><dc:description>We report the first grain-resolved mapping of oxygen evolution reaction (OER) activation on a Ni-based superalloy using identicallocation EBSD, complemented by IL-SEM, IL-EDS, and SECCM. NiFe (oxy)hydroxide film formation and OER activity are strongly influenced by grain size and orientation, with (111)-oriented and smaller grains showing the highest activity. These findings reveal pronounced microstructure heterogeneity and establish IL-EBSD as a powerful tool for guiding the design of advanced electrocatalysts.</dc:description><dc:publisher>Royal Society of Chemistry</dc:publisher><dc:date>2025</dc:date><dc:date>2025-10-10 11:55:28</dc:date><dc:type>Neznano</dc:type><dc:identifier>23842</dc:identifier><dc:source>Združeno kraljestvo Velike Britanije in Irske</dc:source><dc:language>sl</dc:language><dc:rights>© The Royal Society of Chemistry 2025</dc:rights></rdf:Description></rdf:RDF>