Kinetics and Mechanism of Heterogeneous Water Oxidation by α‑Mn2O3 Sintered on an FTO Electrode

Kinetics and Mechanism of Heterogeneous Water Oxidation by α‑Mn2O3 Sintered on an FTO Electrode

Kinetic studies of heterogeneous water oxidation by an α-Mn2O3/FTO electrocatalyst in nonaqueous (CH3CN/0.1 M n-Bu4NPF6 and DMF/0.1 M n-Bu4NPF6) and aqueous 0.1 M KPi (pH 7.0) solutions showed that the rate of water oxidation is first order in catalyst concentration and in H2O concentration. The squ...

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Veröffentlicht in:ACS catalysis 2016-07, Vol.6 (7), p.4470-4476
Hauptverfasser: Zahran, Zaki N, Mohamed, Eman A, Naruta, Yoshinori
Format: Artikel
Sprache:eng
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Zusammenfassung:Kinetic studies of heterogeneous water oxidation by an α-Mn2O3/FTO electrocatalyst in nonaqueous (CH3CN/0.1 M n-Bu4NPF6 and DMF/0.1 M n-Bu4NPF6) and aqueous 0.1 M KPi (pH 7.0) solutions showed that the rate of water oxidation is first order in catalyst concentration and in H2O concentration. The square wave and cyclic voltammetry measurements reveal the stepwise proton-coupled electron transfer (PCET) oxidations of the active MnII–OH2 site to MnIII–OH and then to MnIVO and finally an electron transfer oxidation of MnIVO to MnVO species. The MnVO species undergoes a rate-limiting O atom transfer to H2O to give a MnIII–OOH2 species that, in turn, undergoes further oxidations to release O2.
ISSN:2155-5435
2155-5435
DOI:10.1021/acscatal.6b00413