The mechanisms by which Mg(2+) and Al(3+) ions are transported through the MgAl(2)O(4) spinel lattice are investigated using atomic scale computer simulation. Both vacancy and interstitial cation processes are considered. Stable vacancies can be generated on either the magnesium or aluminium sublattices but the Mg(2+) and Al(3+) cation interstitials are most stable when located in split form with another Mg(2+) ion about a vacant Mg(2+) site. The pathways for diffusion of defects both via vacancy and interstitial mechanisms are analysed in detail with calculation of the energy barriers and the associated exponential prefactors. The results show that vacancies can be exchanged between the two sublattices resulting in the formation of antisit...
Mg batteries utilizing oxide cathodes can theoretically surpass the energy density of current Li-ion...
In this thesis, defect formation by a radiation event in the normal MgAl2O4 was investigated using m...
In this study, we report results of the application of a novel procedure for modeling cation orderin...
In perfect normal MgAl2O4 spinel the Mg2+ ions occupy tetrahedral 8a sites and Al3+ ions occupy octa...
The systematics of cation ordering in binary spinel solid solutions have been investigated using an ...
We have studied the formation and migration of point defects within the magnesium sub-lattice infors...
Point and small cluster defects in magnesium aluminate spinel have been studied from a first princip...
Predictive control of alloy processing requires an accurate knowledge of the thermodynamic and the k...
A novel procedure, based on the application of the kinetics simulator Gepasi, has been successfully ...
We investigate electrochemical properties of Mg in layered and spinel intercalation compounds from f...
Oxygen diffusion plays an important role in grain growth and densification during the sintering of a...
Stoichiometric magnesium aluminate spinel, MgAl2O4, contains equimolar proportions of Al2O3 and MgO....
International audienceThere is some controversy in the literature concerning the nature of radiation...
International audienceComputer simulation techniques were used to investigate the effect of pressure...
Oxygen diffusion plays an important role in grain growth and densification during the sintering of a...
Mg batteries utilizing oxide cathodes can theoretically surpass the energy density of current Li-ion...
In this thesis, defect formation by a radiation event in the normal MgAl2O4 was investigated using m...
In this study, we report results of the application of a novel procedure for modeling cation orderin...
In perfect normal MgAl2O4 spinel the Mg2+ ions occupy tetrahedral 8a sites and Al3+ ions occupy octa...
The systematics of cation ordering in binary spinel solid solutions have been investigated using an ...
We have studied the formation and migration of point defects within the magnesium sub-lattice infors...
Point and small cluster defects in magnesium aluminate spinel have been studied from a first princip...
Predictive control of alloy processing requires an accurate knowledge of the thermodynamic and the k...
A novel procedure, based on the application of the kinetics simulator Gepasi, has been successfully ...
We investigate electrochemical properties of Mg in layered and spinel intercalation compounds from f...
Oxygen diffusion plays an important role in grain growth and densification during the sintering of a...
Stoichiometric magnesium aluminate spinel, MgAl2O4, contains equimolar proportions of Al2O3 and MgO....
International audienceThere is some controversy in the literature concerning the nature of radiation...
International audienceComputer simulation techniques were used to investigate the effect of pressure...
Oxygen diffusion plays an important role in grain growth and densification during the sintering of a...
Mg batteries utilizing oxide cathodes can theoretically surpass the energy density of current Li-ion...
In this thesis, defect formation by a radiation event in the normal MgAl2O4 was investigated using m...
In this study, we report results of the application of a novel procedure for modeling cation orderin...