Volcano Relation for the Deacon Process over Transition‐Metal Oxides | Zendy

Studt Felix | Zendy; AbildPedersen Frank | Zendy; Hansen Heine A. | Zendy; Man Isabela C. | Zendy; Rossmeisl Jan | Zendy; Bligaard Thomas | Zendy

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Volcano Relation for the Deacon Process over Transition‐Metal Oxides

Author(s) -

Studt Felix,

AbildPedersen Frank,

Hansen Heine A.,

Man Isabela C.,

Rossmeisl Jan,

Bligaard Thomas

Publication year - 2010

Publication title -

chemcatchem

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.497

H-Index - 106

eISSN - 1867-3899

pISSN - 1867-3880

DOI - 10.1002/cctc.200900194

Subject(s) - catalysis , density functional theory , oxide , chemisorption , transition metal , chemistry , oxygen , rutile , metal , inorganic chemistry , computational chemistry , thermodynamics , physics , organic chemistry

We establish an activity relation for the heterogeneous catalytic oxidation of HCl (the Deacon Process) over rutile transition‐metal oxide catalysts by combining density functional theory calculations (DFT) with microkinetic modeling. Linear energy relations for the elementary reaction steps are obtained from the DFT calculations and used to establish a one‐dimensional descriptor for the catalytic activity. The descriptor employed here is the dissociative chemisorption energy of oxygen. It is found that the commonly employed RuO 2 catalyst is close to optimal, but that there could still be room for improvements. The analysis suggests that oxide surfaces which offer slightly weaker bonding of oxygen should exhibit a superior activity to that of RuO 2 .

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