Reversible magnesium and aluminium ions insertion in cation-deficient anatase TiO2 - Archive ouverte HAL
Article Dans Une Revue Nature Materials Année : 2017

Reversible magnesium and aluminium ions insertion in cation-deficient anatase TiO2

Monique Body

Résumé

In contrast to monovalent lithium or sodium ions, the reversible insertion of multivalent ions such as Mg2+ and Al3+ into electrode materials remains an elusive goal. Here, we demonstrate a new strategy to achieve reversible Mg2+ and Al3+ insertion in anatase TiO2, achieved through aliovalent doping, to introduce a large number of titanium vacancies that act as intercalation sites. We present a broad range of experimental and theoretical characterizations that show a preferential insertion of multivalent ions into titanium vacancies, allowing a much greater capacity to be obtained compared to pure TiO2. This result highlights the possibility to use the chemistry of defects to unlock the electrochemical activity of known materials, providing a new strategy for the chemical design of materials for practical multivalent batteries.
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hal-01984411 , version 1 (15-04-2024)

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Toshinari Koketsu, Jiwei Ma, Benjamin J. Morgan, Monique Body, Christophe Legein, et al.. Reversible magnesium and aluminium ions insertion in cation-deficient anatase TiO2. Nature Materials, 2017, 16 (11), pp.1142-1148. ⟨10.1038/nmat4976⟩. ⟨hal-01984411⟩
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