Hybrid d<sup>0</sup> and d<sup>10</sup> electronic configurations promote photocatalytic activity of high-entropy oxides for CO<sub>2</sub> conversion and water splitting - Institut National des Sciences Appliquées de Rouen
Article Dans Une Revue Journal of Materials Chemistry A Année : 2024

Hybrid d0 and d10 electronic configurations promote photocatalytic activity of high-entropy oxides for CO2 conversion and water splitting

Résumé

Photocatalysis offers a sustainable solution for essential reactions such as CO 2 conversion and water splitting, but constraints in catalyst properties like bandgap and active site availability often limit its efficiency. High-entropy oxides (HEOs), which incorporate five or more different cations, present significant potential for this application due to their elemental diversity. This study explores active HEO development for photocatalytic applications by integrating cations with d 0 and d 10 electronic configurations. A single-phase HEO with a monoclinic structure was successfully synthesized, comprising elements with d 0 (titanium, zirconium, niobium and tantalum) and d 10 (zinc) electronic configurations. Comprehensive analyses of its microstructure, chemical composition, optical properties and photocatalytic activity were conducted. The resulting TiZrNbTaZnO 10 exhibited superior UV and visible light absorption, a low bandgap of 2.5 eV, minimal radiative electron-hole recombination and high stability under photocatalytic conditions. Remarkably, TiZrNbTaZnO 10 outperformed the TiZrHfNbTaO 11 photocatalyst which contains solely d 0 electronic configuration. This enhanced performance is attributed to the mixed electronic configurations fostering heterogeneous chemical environments, which facilitate efficient charge carrier separation and transfer.

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hal-04852087 , version 1 (20-12-2024)

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Jacqueline Hidalgo-Jiménez, Taner Akbay, Xavier Sauvage, Lambert van Eijck, Motonori Watanabe, et al.. Hybrid d0 and d10 electronic configurations promote photocatalytic activity of high-entropy oxides for CO2 conversion and water splitting. Journal of Materials Chemistry A, 2024, 12, pp.31589 - 31602. ⟨10.1039/d4ta04689g⟩. ⟨hal-04852087⟩
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