In the present work, a generalization of some of the interpretations of heterogeneous catalysis to the case of oxide film electrocatalysts has been attempted, using conductive boron-doped diamond supports. The very high stability of this material allowed the study of the catalytic properties of noble-metal oxide modifications from the level of submonolayer to a few monolayers, avoiding the serious interference of the reactivity of the generally adopted metal supports. A mechanism for the chlorine evolution reaction at submonolayers of oxide electrocatalyst has been proposed, basing on a chlorine radical spillover stage.

Electrocatalysis at Conductive Diamond Modified by Noble-Metal Oxides

DE BATTISTI, Achille;FERRO, Sergio;DAL COLLE, Maurizio
2001

Abstract

In the present work, a generalization of some of the interpretations of heterogeneous catalysis to the case of oxide film electrocatalysts has been attempted, using conductive boron-doped diamond supports. The very high stability of this material allowed the study of the catalytic properties of noble-metal oxide modifications from the level of submonolayer to a few monolayers, avoiding the serious interference of the reactivity of the generally adopted metal supports. A mechanism for the chlorine evolution reaction at submonolayers of oxide electrocatalyst has been proposed, basing on a chlorine radical spillover stage.
2001
DE BATTISTI, Achille; Ferro, Sergio; DAL COLLE, Maurizio
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1200729
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