International audienceThis work revises the concept of defects in crystalline solids and proposes a universal strategy for their characterization at the atomic scale using outlier detection based on statistical distances. The proposed strategy provides a generic measure that describes the distortion score of local atomic environments. This score facilitates automatic defect localization and enables a stratified description of defects, which allows to distinguish the zones with different levels of distortion within the structure.This work proposes applications for advanced materials modelling ranging from the surrogate concept for the energy per atom to the relevant information selection for evaluation of energy barriers from the mean force....
Figure 1: Si system with a tri-interstitial defect (dataset I1) (a) Lattice with bulk and defect (b)...
International audienceModeling point defects at an atomic scale requires careful treatment of the lo...
Point defects often appear in two-dimensional (2D) materials and are mostly correlated with physical...
International audienceThis work revises the concept of defects in crystalline solids and proposes a ...
Abstract Decades of advancements in strategies for the calculation of atomic interactio...
The analysis of defects and defect dynamics in crystalline materials is important for fundamental sc...
Even minute amounts of one solute atom per one million bulk atoms may give rise to qualitative chang...
International audiencePrediction of condensed matter properties requires an accurate description of ...
Atomic scale imperfections, know as point defects, dictate the performance and efficiency of many mo...
Abstract Modification of physical properties of materials and design of materials with on-demand cha...
Controlling crystalline material defects is crucial, as they affect properties of the material that ...
The defects of materials have a significant impact on their mechanical properties and deformation be...
Defects in graphene can profoundly impact its extraordinary properties, ultimately influencing the p...
We describe a novel method for extracting dislocation lines from atomistic simulation data in a full...
Point defects are a universal feature of crystalline materials. Their identification is often addres...
Figure 1: Si system with a tri-interstitial defect (dataset I1) (a) Lattice with bulk and defect (b)...
International audienceModeling point defects at an atomic scale requires careful treatment of the lo...
Point defects often appear in two-dimensional (2D) materials and are mostly correlated with physical...
International audienceThis work revises the concept of defects in crystalline solids and proposes a ...
Abstract Decades of advancements in strategies for the calculation of atomic interactio...
The analysis of defects and defect dynamics in crystalline materials is important for fundamental sc...
Even minute amounts of one solute atom per one million bulk atoms may give rise to qualitative chang...
International audiencePrediction of condensed matter properties requires an accurate description of ...
Atomic scale imperfections, know as point defects, dictate the performance and efficiency of many mo...
Abstract Modification of physical properties of materials and design of materials with on-demand cha...
Controlling crystalline material defects is crucial, as they affect properties of the material that ...
The defects of materials have a significant impact on their mechanical properties and deformation be...
Defects in graphene can profoundly impact its extraordinary properties, ultimately influencing the p...
We describe a novel method for extracting dislocation lines from atomistic simulation data in a full...
Point defects are a universal feature of crystalline materials. Their identification is often addres...
Figure 1: Si system with a tri-interstitial defect (dataset I1) (a) Lattice with bulk and defect (b)...
International audienceModeling point defects at an atomic scale requires careful treatment of the lo...
Point defects often appear in two-dimensional (2D) materials and are mostly correlated with physical...