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Article Dans Une Revue Journal of Alloys and Compounds Année : 2023

Mechanochemical synthesis of pseudobinary Ti-V hydrides and their conversion reaction with Li and Na

Résumé

Lithium-ion batteries (LiBs) based on insertion electrodes reach intrinsic capacity limits. Performance improvements and cost reduction require alternative reaction mechanisms and novel battery chemistries such as conversion reactions and sodium-ion batteries (NaBs), respectively. We here study the formation of Ti1-xVxH2 hydrides (0 < x < 1) and their electrochemical properties as anodes in LiBs and NaBs half-cells. Hydrides were synthesized by mechanochemistry of the metal powders under hydrogen atmosphere (PH2~ 8 MPa). For V contents below 80 at.% (x < 0.8), single-phase pseudobinary dihydride compounds Ti1-xVxH2 are formed. They crystallize in the fluorite-type structure and are highly nanostructured (crystallite size < 10 nm). Their lattice parameter decreases linearly with the V content leading to hydride destabilization. Electrochemical studies were first carried out in Li-ion half cells with full conversion between Ti1-xVxH2 hydrides and lithium. The potential of the conversion reaction can be gradually tuned with the vanadium content due to its destabilization effect. Furthermore, different paths for the conversion reaction are observed for Ti-rich (x < 0.25) and V-rich (x > 0.7) alloys. Na-ion half-cell measurements prove the reactivity between (V,Ti)H2 hydrides and sodium, albeit with significant kinetic limitations
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Dates et versions

hal-03839967 , version 1 (13-02-2024)

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Fermin Cuevas, Barbara Laïk, Junxian Zhang, Mickaël Mateos, Jean-Pierre Pereira-Ramos, et al.. Mechanochemical synthesis of pseudobinary Ti-V hydrides and their conversion reaction with Li and Na. Journal of Alloys and Compounds, 2023, 939, pp.168785. ⟨10.1016/j.jallcom.2023.168785⟩. ⟨hal-03839967⟩
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