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W2947779500 endingPage "4290" @default.
W2947779500 startingPage "4282" @default.
W2947779500 abstract "Controlling the stoichiometry and metastability in functional oxides is often the key to enhance their performance for a range of important oxide-based technological applications. In this work, using the recently developed meta-generalized-gradient approximation (GGA) and hybrid density functional theory calculations, we study both stoichiometric and substoichiometric (Magnéli) oxides of tungsten and molybdenum, focusing on their structural parameters, growth thermodynamics, and electronic structure for targeted photo-related applications. We report that the substoichiometric Magnéli phases of tungsten oxides (namely, W5O14 and W18O49) are found to be stable under both gas- and solution-based synthesis environment, whereas the substoichiometric Magnéli phases of molybdenum oxides (namely, Mo9O26, Mo5O14, and Mo4O11) prefer to form only under gas-phase synthesis. We highlight how these n-doped substoichiometric Magnéli heavy metal oxides are indeed the choice candidate materials for solar water splitting (within the Z-scheme) and act as interfacial hole transport layers for the next-generation photodevices." @default.
W2947779500 created "2019-06-07" @default.
W2947779500 creator A5003625501 @default.
W2947779500 creator A5012423737 @default.
W2947779500 creator A5056670251 @default.
W2947779500 date "2019-05-22" @default.
W2947779500 modified "2023-10-16" @default.
W2947779500 title "Phase Stability Diagrams of Group 6 Magnéli Oxides and Their Implications for Photon-Assisted Applications" @default.
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W2947779500 doi "https://doi.org/10.1021/acs.chemmater.9b01430" @default.
W2947779500 hasPublicationYear "2019" @default.
W2947779500 type Work @default.
W2947779500 sameAs 2947779500 @default.