Formation of cubic Li^sub 2^TiO^sub 3^ by mechanical activation and its transformation to monoclinic phase: Stability in helium and hydrogen flows

Lithium metatitanate (Li 2TiO 3) is one of the most attractive candidates as a solid breeder in the blanket of D-T fusion reactors and ionic conductors in lithium-ion batteries. In this work, a new synthesis route, avoiding the use of solvents, high temperatures and dangerous sub-products, is used t...

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Bibliographic Details
Published in:Solid state ionics 2017-10, Vol.308, p.46
Main Authors: Carbajal-Ramos, IA, Andrade-Gamboa, JJ, Condó, AM, Gennari, FC
Format: Article
Language:English
Subjects:
Atmospheres
Batteries
Breeder reactors
Chemical synthesis
Conductors
Controlled atmospheres
Fusion
Fusion reactors
Heat treatment
Helium
Hydrogen storage
Inert atmospheres
Lithium
Lithium-ion batteries
Pellets
Phase transitions
Rechargeable batteries
Sintering (powder metallurgy)
Structural stability
Titanium
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Summary:Lithium metatitanate (Li 2TiO 3) is one of the most attractive candidates as a solid breeder in the blanket of D-T fusion reactors and ionic conductors in lithium-ion batteries. In this work, a new synthesis route, avoiding the use of solvents, high temperatures and dangerous sub-products, is used to obtain cubic and monoclinic Li 2TiO 3 nanopowders. This method consists of ball milling of LiCl, TiO 3 and NaOH in air atmosphere at room temperature and posterior calcination. Structural, microstructural and textural characteristics of theLi 2TiO 3 powders as well as of the pellets before and after annealing were determined. Remarkable contraction of the material and high mechanical stability was observed after treatment at 800 °C for 5 h. Finally, the behaviour in reductive and inert atmospheres of the sintered and green pellets was studied, characterizing the extension and impact of the reactions on the physicochemical and structural stability of the material. It can be concluded that the sintered pellets became mechanically stable due to the thermal treatment, showing no physicochemical modifications after analysis in different atmospheres up to 800 °C.
ISSN:0167-2738
1872-7689