Add to ORKGUnderstanding and predicting radiation damage evolution in complex materials is crucial for developing next-generation nuclear energy sources. Here, using a combination of ion beam irradiation, transmission electron microscopy and X-ray diffraction, we show that, contrary to the behaviour observed in pyrochlores, the amorphization resistance of spinel compounds correlates directly with the energy to disorder the structure. Using a combination of atomistic simulation techniques, we ascribe this behaviour to structural defects on the cation sublattice that are present in spinel but not in pyrochlore. Specifically, because of these structural defects, there are kinetic pathways for the relaxation of disorder in spinel that are absent in pyroch...
In this thesis, defect formation by a radiation event in the normal MgAl2O4 was investigated using m...
International audienceHigh energy ball milling and exposure to energetic heavy ion beams are two mat...
In this article we provide some perspectives on a range of pyrochlore and defect fluorite type compo...
Structure–property relationships are a key materials science concept that enables the design of new ...
The formation energy of cation antisites in pyrochlores (A2B2O7) has been correlated with the suscep...
Structural disorder has a profound effect on a material’s physical properties and can be harnessed f...
Both experimental approach and atomistic simulations are performed in order to investigate the influ...
Pyrochlore with the general formula of A3+2B4+2O7 (Fd3m; Z = 8) has been proposed as the candida...
There has been an increased focus on understanding theenergetics of structures with unconventional o...
The radiation tolerance of synthetic pyrochlore and defect fluorite compounds has been studied using...
International audienceThe disordering sequence of Y2Ti2O7 pyrochlore, a nano-oxide phase that streng...
Ab initio total energy calculations using the plane-wave pseudopotential method based on density fun...
A major challenge to understanding the response of materials to extreme environments (e.g., nuclear ...
Damage caused by swift heavy ions with three different electronic stopping powers (120 MeV Au9+ (22 ...
In this thesis, defect formation by a radiation event in the normal MgAl2O4 was investigated using m...
International audienceHigh energy ball milling and exposure to energetic heavy ion beams are two mat...
In this article we provide some perspectives on a range of pyrochlore and defect fluorite type compo...
Structure–property relationships are a key materials science concept that enables the design of new ...
The formation energy of cation antisites in pyrochlores (A2B2O7) has been correlated with the suscep...
Structural disorder has a profound effect on a material’s physical properties and can be harnessed f...
Both experimental approach and atomistic simulations are performed in order to investigate the influ...
Pyrochlore with the general formula of A3+2B4+2O7 (Fd3m; Z = 8) has been proposed as the candida...
There has been an increased focus on understanding theenergetics of structures with unconventional o...
The radiation tolerance of synthetic pyrochlore and defect fluorite compounds has been studied using...
International audienceThe disordering sequence of Y2Ti2O7 pyrochlore, a nano-oxide phase that streng...
Ab initio total energy calculations using the plane-wave pseudopotential method based on density fun...
A major challenge to understanding the response of materials to extreme environments (e.g., nuclear ...
Damage caused by swift heavy ions with three different electronic stopping powers (120 MeV Au9+ (22 ...
In this thesis, defect formation by a radiation event in the normal MgAl2O4 was investigated using m...
International audienceHigh energy ball milling and exposure to energetic heavy ion beams are two mat...
In this article we provide some perspectives on a range of pyrochlore and defect fluorite type compo...