Atomic disordering in materials alters their physical and chemical properties and can subsequently affect their performance. In complex ceramic materials, it is a challenge to understand the nature of structural disordering, due to the difficulty of direct, atomic-scale experimental observations. Here we report the direct imaging of ion irradiation-induced antisite defects in Mn+1AXn phases using double CS-corrected scanning transmission electron microscopy and provide compelling evidence of order-to-disorder phase transformations, overturning the conventional view that irradiation causes phase decomposition to binary fcc-structured Mn+1Xn. With the formation of uniformly distributed cation antisite defects and the rearrangement of X anions...
This paper reports an X-ray diffraction study of the stacking faults and solid state transformations...
International audienceRadiation induced segregation (RIS) on lattice defects and phase stability und...
The microscopic mechanism of diffusion-type solid-solid first-order transitions was studied in boron...
International audienceHigh energy ball milling and exposure to energetic heavy ion beams are two mat...
In charge-ordered phases, broken translational symmetry emerges from couplings between charge, spin,...
Bulk La2/3Sr1/3MnO3 ceramic samples prepared by thermal decomposition are investigated using transmi...
Dynamic processes, such as solid-state chemical reactions and phase changes, are ubiquitous in mater...
We study the effects of temperature and disordering rate on the ordered microstructures of real and ...
Mastery of order-disorder processes in highly nonequilibrium nanostructured oxides has significant i...
Nanolaminated Mn+1AXn phases as candidate materials for next generation nuclear reactor applications...
Incommensurate charge order in hole-doped oxides is intertwined with exotic phenomena such as coloss...
While being key to understanding their intriguing physical properties, the origin of nanophase separ...
We report extended X-ray absorption fine structure measurements at the Mn K absorption edge and in a...
International audienceRecently, there has been an increased focus on understanding the structural de...
This paper reports an X-ray diffraction study of the stacking faults and solid state transformations...
International audienceRadiation induced segregation (RIS) on lattice defects and phase stability und...
The microscopic mechanism of diffusion-type solid-solid first-order transitions was studied in boron...
International audienceHigh energy ball milling and exposure to energetic heavy ion beams are two mat...
In charge-ordered phases, broken translational symmetry emerges from couplings between charge, spin,...
Bulk La2/3Sr1/3MnO3 ceramic samples prepared by thermal decomposition are investigated using transmi...
Dynamic processes, such as solid-state chemical reactions and phase changes, are ubiquitous in mater...
We study the effects of temperature and disordering rate on the ordered microstructures of real and ...
Mastery of order-disorder processes in highly nonequilibrium nanostructured oxides has significant i...
Nanolaminated Mn+1AXn phases as candidate materials for next generation nuclear reactor applications...
Incommensurate charge order in hole-doped oxides is intertwined with exotic phenomena such as coloss...
While being key to understanding their intriguing physical properties, the origin of nanophase separ...
We report extended X-ray absorption fine structure measurements at the Mn K absorption edge and in a...
International audienceRecently, there has been an increased focus on understanding the structural de...
This paper reports an X-ray diffraction study of the stacking faults and solid state transformations...
International audienceRadiation induced segregation (RIS) on lattice defects and phase stability und...
The microscopic mechanism of diffusion-type solid-solid first-order transitions was studied in boron...
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