Electronic metal-support interaction enhanced oxygen reduction activity and stability of boron carbide supported platinum

Electronic metal-support interaction enhanced oxygen reduction activity and stability of boron carbide supported platinum

D-band engineering via alloying platinum is a leading design principle for advanced oxygen reduction electrocatalysts, but stability remains a concern. Here the authors make Pt nanoparticles supported on graphite-rich boron carbide for enhanced activity and stability, isolating and optimizing the el...

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Autores principales: Colleen Jackson, Graham T. Smith, David W. Inwood, Andrew S. Leach, Penny S. Whalley, Mauro Callisti, Tomas Polcar, Andrea E. Russell, Pieter Levecque, Denis Kramer
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2017
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Science
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Acceso en línea:https://doaj.org/article/3002e70d600646598e95f33d22161433
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Sumario:D-band engineering via alloying platinum is a leading design principle for advanced oxygen reduction electrocatalysts, but stability remains a concern. Here the authors make Pt nanoparticles supported on graphite-rich boron carbide for enhanced activity and stability, isolating and optimizing the electronic metal-support interactions.

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