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Earth-abundant materials are required to facilitate upscaling of renewable hydrogen generation. Here, the synthesis of a novel oxidic ternary cocatalyst containing molybdenum, chromium, and copper, which has been found to be highly active in the overall photocatalytic splitting of water over gallium oxide, is described. With the noble metal-free system, requiring hydrogen evolution rates comparable to that of the well-established RhxCr2-xO3/Ga2O3 water splitting cocatalyst is achieved. Although the stability of the as-prepared ternary cocatalyst system appeared to be poor, the cocatalyst can be easily regenerated and stabilized by an oxygen treatment under ambient conditions. Furthermore, higher MoOx loadings were found to be more active and showed improved stability. By means of careful characterization using Xray-based spectroscopy and TEM, the function of the individual cocatalyst compounds was closely examined, suggesting synergetic interactions of molybdena and chromia stabilizing CuO against photoreduction. Although stability issues should be further addressed, this work highlights that multicomponent systems, which are well-studied in industrial processes for heterogeneous reactions and commonly used in various other fields of research, can be used in solar water splitting. In particular, molybdena-containing materials are discovered as a new class of earth-abundant cocatalysts for overall water-splitting.
Original languageEnglish
JournalA C S Catalysis
Volume5
Issue number9
Pages (from-to)5530-5539
Number of pages10
ISSN2155-5435
DOIs
StatePublished - 2015
CitationsWeb of Science® Times Cited: 14

    Keywords

  • photocatalytic overall water splitting, earth-abundant cocatalyst, sequential photodeposition, back reaction, gallium oxide, molybdenum oxide
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