Atomically dispersed noble metal catalysts have received recent interest, although the coordination of the metal to the support and how this is influenced by pre-treatment have not often been elucidated. We combine CO FTIR-TPD and DFT to distinguish how catalyst reduction via CO or H2 influence the local metal coordination and molecular desorption processes.

Asokan, C., Thang, H., Pacchioni, G., Christopher, P. (2020). Reductant composition influences the coordination of atomically dispersed Rh on anatase TiO2. CATALYSIS SCIENCE & TECHNOLOGY, 10(6), 1597-1601 [10.1039/d0cy00146e].

Reductant composition influences the coordination of atomically dispersed Rh on anatase TiO2

Thang H. V.;Pacchioni G.
;
2020

Abstract

Atomically dispersed noble metal catalysts have received recent interest, although the coordination of the metal to the support and how this is influenced by pre-treatment have not often been elucidated. We combine CO FTIR-TPD and DFT to distinguish how catalyst reduction via CO or H2 influence the local metal coordination and molecular desorption processes.
Articolo in rivista - Articolo scientifico
oxide
English
2020
1597
1601
5
Asokan, C., Thang, H., Pacchioni, G., Christopher, P. (2020). Reductant composition influences the coordination of atomically dispersed Rh on anatase TiO2. CATALYSIS SCIENCE & TECHNOLOGY, 10(6), 1597-1601 [10.1039/d0cy00146e].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/321517
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