Copper catalysis at operando conditions—bridging the gap between single nanoparticle probing and catalyst-bed-averaging

Copper catalysis at operando conditions—bridging the gap between single nanoparticle probing and catalyst-bed-averaging

Characterizing individual catalyst nanoparticles at operando conditions is a cornerstone of catalysis research. Here the authors utilize plasmonic optical nanoimaging in a nanofluidic reactor to map the impact of reactor geometry on single Cu particle oxidation state dynamics and active phase during...

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Autores principales: David Albinsson, Astrid Boje, Sara Nilsson, Christopher Tiburski, Anders Hellman, Henrik Ström, Christoph Langhammer
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Science
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Acceso en línea:https://doaj.org/article/cf49f33dd77b413b9dcfa8904cb7957a
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Sumario:Characterizing individual catalyst nanoparticles at operando conditions is a cornerstone of catalysis research. Here the authors utilize plasmonic optical nanoimaging in a nanofluidic reactor to map the impact of reactor geometry on single Cu particle oxidation state dynamics and active phase during CO oxidation.

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