Reinforcing materials modelling by encoding the structures of defects in crystalline solids into distortion scores

Detection and visualization of anomalous structures in molecular dynamics simulation data

Sameep Mehta
Computer Science
Kaden Hazzard
Srinivasan Parthasarathy
John Wilkins

January 2004

Figure 1: Si system with a tri-interstitial defect (dataset I1) (a) Lattice with bulk and defect (b)...

Point defect modeling in materials: coupling ab initio and elasticity approaches

Varvenne, Céline
Bruneval, Fabien
Marinica, Mihai-Cosmin
Clouet, Emmanuel

January 2013

International audienceModeling point defects at an atomic scale requires careful treatment of the lo...

Full automation of point defect detection in transition metal dichalcogenides through a dual mode deep learning algorithm

Dong-Hwan Yang
Chu, Yu-Seong
Okello, Odongo Francis Ngome
Seo, Seung-Young
Gunho Moon
Kim, Kwang Ho
Moon-Ho Jo
Shin, Dongwon
Mizoguchi, Teruyasu
Yang, Sejung
Si-Young Choi

February 2024

Point defects often appear in two-dimensional (2D) materials and are mostly correlated with physical...

Reinforcing materials modelling by encoding the structures of defects in crystalline solids into distortion scores

Goryaeva, Alexandra M
Lapointe, Clovis
Dai, Chendi
Deres, Julien
Maillet, Jean-Bernanrd
Marinica, Mihai Cosmin

January 2020

International audienceThis work revises the concept of defects in crystalline solids and proposes a ...

Machine-learning potentials for crystal defects

Freitas, Rodrigo
Cao, Yifan

August 2022

Abstract Decades of advancements in strategies for the calculation of atomic interactio...

FaVAD: A software workflow for characterization and visualizing of defects in crystalline structures

von Toussaint, U

The analysis of defects and defect dynamics in crystalline materials is important for fundamental sc...

Machine Learning potentials for modeling irradiation defects in iron and tungsten

Goryaeva, A.
Maillet, Jb.
Marinica, Mc.

October 2018

International audiencePrediction of condensed matter properties requires an accurate description of ...

A machine learning approach to model solute grain boundary segregation

Huber, L.
Hadian, R.
Grabowski, B.
Neugebauer, J.

December 2018

Even minute amounts of one solute atom per one million bulk atoms may give rise to qualitative chang...

Point Defect Engineering of Energy Materials from First-Principles Calculations

Broberg, Daniel

January 2019

Atomic scale imperfections, know as point defects, dictate the performance and efficiency of many mo...

Learning-based defect recognition for quasi-periodic HRSTEM images

Dennler, Nik
Foncubierta-Rodriguez, Antonio
Neupert, Titus
Sousa, Marilyne

July 2021

Controlling crystalline material defects is crucial, as they affect properties of the material that ...

Unveiling the complex structure-property correlation of defects in 2D materials based on high throughput datasets

Pengru Huang
Ruslan Lukin
Maxim Faleev
Nikita Kazeev
Abdalaziz Rashid Al-Maeeni
Daria V. Andreeva
Andrey Ustyuzhanin
Alexander Tormasov
A. H. Castro Neto
Kostya S. Novoselov

February 2023

Abstract Modification of physical properties of materials and design of materials with on-demand cha...

Defect effects on mechanical properties and deformation behavior of materials: from quantum mechanics to molecular dynamics assisted by machine learning

Zheng, Hui

January 2021

The defects of materials have a significant impact on their mechanical properties and deformation be...

Machine Learning-Based Detection of Graphene Defects with Atomic Precision.

Zheng, Bowen
Gu, Grace X

September 2020

Defects in graphene can profoundly impact its extraordinary properties, ultimately influencing the p...

Extracting dislocations and non-dislocation crystal defects from atomistic simulation data

Stukowski, Alexander
Albe, Karsten

September 2010

We describe a novel method for extracting dislocation lines from atomistic simulation data in a full...

Identifying the ground state structures of point defects in solids

Mosquera-Lois, Irea
Kavanagh, Seán R.
Walsh, Aron
Scanlon, David O.

July 2022

Point defects are a universal feature of crystalline materials. Their identification is often addres...

Detection and visualization of anomalous structures in molecular dynamics simulation data

Sameep Mehta
Computer Science
Kaden Hazzard
Srinivasan Parthasarathy
John Wilkins

January 2004

Figure 1: Si system with a tri-interstitial defect (dataset I1) (a) Lattice with bulk and defect (b)...

Point defect modeling in materials: coupling ab initio and elasticity approaches

Varvenne, Céline
Bruneval, Fabien
Marinica, Mihai-Cosmin
Clouet, Emmanuel

January 2013

International audienceModeling point defects at an atomic scale requires careful treatment of the lo...

Full automation of point defect detection in transition metal dichalcogenides through a dual mode deep learning algorithm

Dong-Hwan Yang
Chu, Yu-Seong
Okello, Odongo Francis Ngome
Seo, Seung-Young
Gunho Moon
Kim, Kwang Ho
Moon-Ho Jo
Shin, Dongwon
Mizoguchi, Teruyasu
Yang, Sejung
Si-Young Choi

February 2024

Point defects often appear in two-dimensional (2D) materials and are mostly correlated with physical...

Reinforcing materials modelling by encoding the structures of defects in crystalline solids into distortion scores

Goryaeva, Alexandra M
Lapointe, Clovis
Dai, Chendi
Deres, Julien
Maillet, Jean-Bernanrd
Marinica, Mihai Cosmin

January 2020

International audienceThis work revises the concept of defects in crystalline solids and proposes a ...

Machine-learning potentials for crystal defects

Freitas, Rodrigo
Cao, Yifan

August 2022

Abstract Decades of advancements in strategies for the calculation of atomic interactio...

FaVAD: A software workflow for characterization and visualizing of defects in crystalline structures

von Toussaint, U

The analysis of defects and defect dynamics in crystalline materials is important for fundamental sc...

Machine Learning potentials for modeling irradiation defects in iron and tungsten

Goryaeva, A.
Maillet, Jb.
Marinica, Mc.

October 2018

International audiencePrediction of condensed matter properties requires an accurate description of ...

A machine learning approach to model solute grain boundary segregation

Huber, L.
Hadian, R.
Grabowski, B.
Neugebauer, J.

December 2018

Even minute amounts of one solute atom per one million bulk atoms may give rise to qualitative chang...

Point Defect Engineering of Energy Materials from First-Principles Calculations

Broberg, Daniel

January 2019

Atomic scale imperfections, know as point defects, dictate the performance and efficiency of many mo...

Learning-based defect recognition for quasi-periodic HRSTEM images

Dennler, Nik
Foncubierta-Rodriguez, Antonio
Neupert, Titus
Sousa, Marilyne

July 2021

Controlling crystalline material defects is crucial, as they affect properties of the material that ...

Unveiling the complex structure-property correlation of defects in 2D materials based on high throughput datasets

Pengru Huang
Ruslan Lukin
Maxim Faleev
Nikita Kazeev
Abdalaziz Rashid Al-Maeeni
Daria V. Andreeva
Andrey Ustyuzhanin
Alexander Tormasov
A. H. Castro Neto
Kostya S. Novoselov

February 2023

Abstract Modification of physical properties of materials and design of materials with on-demand cha...

Defect effects on mechanical properties and deformation behavior of materials: from quantum mechanics to molecular dynamics assisted by machine learning

Zheng, Hui

January 2021

The defects of materials have a significant impact on their mechanical properties and deformation be...

Machine Learning-Based Detection of Graphene Defects with Atomic Precision.

Zheng, Bowen
Gu, Grace X

September 2020

Defects in graphene can profoundly impact its extraordinary properties, ultimately influencing the p...

Extracting dislocations and non-dislocation crystal defects from atomistic simulation data

Stukowski, Alexander
Albe, Karsten

September 2010

We describe a novel method for extracting dislocation lines from atomistic simulation data in a full...

Identifying the ground state structures of point defects in solids

Mosquera-Lois, Irea
Kavanagh, Seán R.
Walsh, Aron
Scanlon, David O.

July 2022

Point defects are a universal feature of crystalline materials. Their identification is often addres...

Detection and visualization of anomalous structures in molecular dynamics simulation data

Sameep Mehta
Computer Science
Kaden Hazzard
Srinivasan Parthasarathy
John Wilkins

January 2004

Figure 1: Si system with a tri-interstitial defect (dataset I1) (a) Lattice with bulk and defect (b)...

Point defect modeling in materials: coupling ab initio and elasticity approaches

Varvenne, Céline
Bruneval, Fabien
Marinica, Mihai-Cosmin
Clouet, Emmanuel

January 2013

International audienceModeling point defects at an atomic scale requires careful treatment of the lo...

Full automation of point defect detection in transition metal dichalcogenides through a dual mode deep learning algorithm

Dong-Hwan Yang
Chu, Yu-Seong
Okello, Odongo Francis Ngome
Seo, Seung-Young
Gunho Moon
Kim, Kwang Ho
Moon-Ho Jo
Shin, Dongwon
Mizoguchi, Teruyasu
Yang, Sejung
Si-Young Choi

February 2024

Point defects often appear in two-dimensional (2D) materials and are mostly correlated with physical...

Reinforcing materials modelling by encoding the structures of defects in crystalline solids into distortion scores

Abstract

Extracted data

Reinforcing materials modelling by encoding the structures of defects in crystalline solids into distortion scores

Abstract

Extracted data

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