Accelerated discoveries of mechanical properties of graphene using machine learning and high-throughput computation

Screening outstanding mechanical properties and low lattice thermal conductivity using global attention graph neural network

Joshua Ojih
Alejandro Rodriguez
Jianjun Hu
Ming Hu

October 2023

Mechanical and thermal properties of materials are extremely important for various engineering and s...

High‐Throughput Generation of 3D Graphene Metamaterials and Property Quantification Using Machine Learning

Yang, Zhenze
Buehler, Markus J

September 2022

3D graphene assemblies are proposed as solutions to meet the goal toward efficient utilization of 2D...

The Generation of a Physics Informed Machine Learning Model to Predict Defect Evolution in Materials & On the Thermally Activated Regime of Dislocation Motion: A Simulation Driven Study on the Mechanical Behavior of Crystals

Myhill, Liam

December 2023

Line defects in crystals, known as dislocations, govern the mechanisms of plastic deformation at the...

Accelerated discoveries of mechanical properties of graphene using machine learning and high-throughput computation

Zhang, Zesheng
Hong, Yang
Hou, Bo
Zhang, Zhongtao
Negahban, Mehrdad
Zhang, Jingchao

July 2019

Machine learning (ML) has been vastly used in various fields, but its application in engineering sci...

Sparse machine learning assisted deep computational insights on the mechanical properties of graphene with intrinsic defects and doping

Gupta, K. K.
Mukhopadhyay, T.
Roy, A.
Roy, L.
Dey, S.

August 2021

Despite the tremendous capabilities of Molecular dynamics (MD) simulations, they suffer from the lim...

Probing the stochastic fracture behavior of twisted bilayer graphene: efficient ANN based molecular dynamics simulations for complete probabilistic characterization

Gupta, K. K.
Roy, A.
Mukhopadhyay, T.
Roy, L.
Dey, S.

July 2022

The present article outlines a probabilistic investigation of the uniaxial tensile behaviour of twis...

Deep learning model to predict fracture mechanisms of graphene

Lew, Andrew James
Yu, Chi-Hua
Hsu, Yu-Chuan
Buehler, Markus J

September 2020

Understanding fracture is critical to the design of resilient nanomaterials. Molecular dynamics offe...

Machine Learning-Based Detection of Graphene Defects with Atomic Precision

Zheng, Bowen
Gu, Grace X

December 2020

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

Effects of vacancy defect on the tensile behavior of graphene

Sun, Xiaoyu
Fu, Zuoguang
Xia, Mingtan
Xu, Yuanjie

December 2014

AbstractGraphene is the strongest material but its performance is significantly weakened by vacancy ...

Scalable Graphene Defect Prediction Using Transferable Learning

Bowen Zheng
Zeyu Zheng
Grace X. Gu

September 2021

Notably known for its extraordinary thermal and mechanical properties, graphene is a favorable build...

Predicting the mechanical characteristics of hydrogen functionalized graphene sheets using artificial neural network approach

Vijayaraghavan, Venkatesh
Garg, Akhil
Wong, Chee How
Tai, Kang
Bhalerao, Yogesh

January 2013

The mechanical properties of hydrogen functionalized graphene (HFG) sheets werepredicted in this wor...

Machine Learning For Designing Stretchable Carbon Nanostructures

Hepler, Helena
Clarkston, James

November 2019

In this research study, we employ machine learning algorithms to perform molecular dynamics simulati...

Molecular dynamics study of effects of geometric defects on the mechanical properties of graphene

Mallika Arachchige, Nuwan Dewapriya

January 2012

Graphene is a flat monolayer of carbon atoms arranged in a two-dimensional hexagonal lattice. It is ...

Predicting stress, strain and deformation fields in materials and structures with graph neural networks

Marco Maurizi
Chao Gao
Filippo Berto

December 2022

Abstract Developing accurate yet fast computational tools to simulate complex physical phenomena is ...

Stress concentrations in nanoscale defective graphene

Wang, C
Wang, J
Barber, AH
Wang, C
Wang, J
Barber, AH

January 2017

Defect-free graphene nanosheets are the strongest material known but manufactured graphene tends to ...

Screening outstanding mechanical properties and low lattice thermal conductivity using global attention graph neural network

Joshua Ojih
Alejandro Rodriguez
Jianjun Hu
Ming Hu

October 2023

Mechanical and thermal properties of materials are extremely important for various engineering and s...

High‐Throughput Generation of 3D Graphene Metamaterials and Property Quantification Using Machine Learning

Yang, Zhenze
Buehler, Markus J

September 2022

3D graphene assemblies are proposed as solutions to meet the goal toward efficient utilization of 2D...

The Generation of a Physics Informed Machine Learning Model to Predict Defect Evolution in Materials & On the Thermally Activated Regime of Dislocation Motion: A Simulation Driven Study on the Mechanical Behavior of Crystals

Myhill, Liam

December 2023

Line defects in crystals, known as dislocations, govern the mechanisms of plastic deformation at the...

Accelerated discoveries of mechanical properties of graphene using machine learning and high-throughput computation

Zhang, Zesheng
Hong, Yang
Hou, Bo
Zhang, Zhongtao
Negahban, Mehrdad
Zhang, Jingchao

July 2019

Machine learning (ML) has been vastly used in various fields, but its application in engineering sci...

Sparse machine learning assisted deep computational insights on the mechanical properties of graphene with intrinsic defects and doping

Gupta, K. K.
Mukhopadhyay, T.
Roy, A.
Roy, L.
Dey, S.

August 2021

Despite the tremendous capabilities of Molecular dynamics (MD) simulations, they suffer from the lim...

Probing the stochastic fracture behavior of twisted bilayer graphene: efficient ANN based molecular dynamics simulations for complete probabilistic characterization

Gupta, K. K.
Roy, A.
Mukhopadhyay, T.
Roy, L.
Dey, S.

July 2022

The present article outlines a probabilistic investigation of the uniaxial tensile behaviour of twis...

Deep learning model to predict fracture mechanisms of graphene

Lew, Andrew James
Yu, Chi-Hua
Hsu, Yu-Chuan
Buehler, Markus J

September 2020

Understanding fracture is critical to the design of resilient nanomaterials. Molecular dynamics offe...

Machine Learning-Based Detection of Graphene Defects with Atomic Precision

Zheng, Bowen
Gu, Grace X

December 2020

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

Effects of vacancy defect on the tensile behavior of graphene

Sun, Xiaoyu
Fu, Zuoguang
Xia, Mingtan
Xu, Yuanjie

December 2014

AbstractGraphene is the strongest material but its performance is significantly weakened by vacancy ...

Scalable Graphene Defect Prediction Using Transferable Learning

Bowen Zheng
Zeyu Zheng
Grace X. Gu

September 2021

Notably known for its extraordinary thermal and mechanical properties, graphene is a favorable build...

Predicting the mechanical characteristics of hydrogen functionalized graphene sheets using artificial neural network approach

Vijayaraghavan, Venkatesh
Garg, Akhil
Wong, Chee How
Tai, Kang
Bhalerao, Yogesh

January 2013

The mechanical properties of hydrogen functionalized graphene (HFG) sheets werepredicted in this wor...

Machine Learning For Designing Stretchable Carbon Nanostructures

Hepler, Helena
Clarkston, James

November 2019

In this research study, we employ machine learning algorithms to perform molecular dynamics simulati...

Molecular dynamics study of effects of geometric defects on the mechanical properties of graphene

Mallika Arachchige, Nuwan Dewapriya

January 2012

Graphene is a flat monolayer of carbon atoms arranged in a two-dimensional hexagonal lattice. It is ...

Predicting stress, strain and deformation fields in materials and structures with graph neural networks

Marco Maurizi
Chao Gao
Filippo Berto

December 2022

Abstract Developing accurate yet fast computational tools to simulate complex physical phenomena is ...

Stress concentrations in nanoscale defective graphene

Wang, C
Wang, J
Barber, AH
Wang, C
Wang, J
Barber, AH

January 2017

Defect-free graphene nanosheets are the strongest material known but manufactured graphene tends to ...

Screening outstanding mechanical properties and low lattice thermal conductivity using global attention graph neural network

Joshua Ojih
Alejandro Rodriguez
Jianjun Hu
Ming Hu

October 2023

Mechanical and thermal properties of materials are extremely important for various engineering and s...

High‐Throughput Generation of 3D Graphene Metamaterials and Property Quantification Using Machine Learning

Yang, Zhenze
Buehler, Markus J

September 2022

3D graphene assemblies are proposed as solutions to meet the goal toward efficient utilization of 2D...

The Generation of a Physics Informed Machine Learning Model to Predict Defect Evolution in Materials & On the Thermally Activated Regime of Dislocation Motion: A Simulation Driven Study on the Mechanical Behavior of Crystals

Myhill, Liam

December 2023

Line defects in crystals, known as dislocations, govern the mechanisms of plastic deformation at the...

Accelerated discoveries of mechanical properties of graphene using machine learning and high-throughput computation

Abstract

Extracted data

Accelerated discoveries of mechanical properties of graphene using machine learning and high-throughput computation

Abstract

Extracted data

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