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  • Role of water in the chlorine evolution reaction at RuO(2)-based electrodes--understanding electrocatalysis as a resonance phenomenon.

Role of water in the chlorine evolution reaction at RuO(2)-based electrodes--understanding electrocatalysis as a resonance phenomenon.

ChemSusChem (2012-08-16)
Aleksandar R Zeradjanin, Nadine Menzel, Peter Strasser, Wolfgang Schuhmann
RÉSUMÉ

The reaction path of the Cl(2) evolution reaction (CER) was investigated by combining electrochemical and spectroscopic methods. It is shown that oxidation and reconstruction of the catalyst surface during CER is a consequence of the interaction between RuO(2) and water. The state of the RuO(2) surface during the electrochemical reaction was analyzed in situ by using Raman spectroscopy to monitor vibrations of the crystal lattice of RuO(2) and changes in the surface concentration of the adsorbed species as a function of the electrode potential. The role of the solvent was recognized as being crucial in the formation of an oxygen-containing hydrophilic layer, which is a key prerequisite for electrocatalytic Cl(2) formation. Water (more precisely the OH adlayer) is understood not just as a medium that allows adsorption of intermediates, but also as an integral part of the intermediate formed during the electrochemical reaction. New insights into the general understanding of electrocatalysis were obtained by utilizing the vibration frequencies of the crystal lattice as a dynamic catalytic descriptor instead of thermodynamic descriptors, such as the adsorption energy of intermediates. Interpretation of the derived "volcano" curve suggests that electrocatalysis is governed by a resonance phenomenon.

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Sigma-Aldrich
Ruthenium(IV) oxide, 99.9% trace metals basis
Sigma-Aldrich
Ruthenium(IV) oxide hydrate, powder
Sigma-Aldrich
Ruthenium(IV) oxide hydrate, 99.9% trace metals basis