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The fundamental understanding and rational manipulation of catalytic site preference at extended solid surfaces is crucial in the search for advanced catalysts. Herein we find that the Ru top sites at metallic ruthenium surface have efficient Pt‐like activity for the hydrogen evolution reaction (HER), but they are subordinate to their adjacent, less active Ru3‐hollow sites due to the stronger hydrogen‐binding...
Elektrokatalytische Wasserspaltung ist eine der vielversprechendsten nachhaltigen Technologien zur Energieumwandlung, ist aber eingeschränkt durch die trägen elektrochemischen Reaktionen. Anorganische Nanomaterialien sind häufig als effiziente Katalysatoren zur Förderung der elektrochemischen Kinetik verwendet worden. Verschiedene Verfahren sind zur Aktivitätsoptimierung dieser Nanokatalysatoren entwickelt...
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