Defects in graphene can profoundly impact its extraordinary properties, ultimately influencing the performances of graphene-based nanodevices. Methods to detect defects with atomic resolution in graphene can be technically demanding and involve complex sample preparations. An alternative approach is to observe the thermal vibration properties of the graphene sheet, which reflects defect information but in an implicit fashion. Machine learning, an emerging data-driven approach that offers solutions to learning hidden patterns from complex data, has been extensively applied in material design and discovery problems. In this paper, we propose a machine learning-based approach to detect graphene defects by discovering the hidden correlation bet...
The presence of point defects such as vacancies plays an important role in material design. Here, we...
Abstract Modification of physical properties of materials and design of materials with on-demand cha...
Defect-free graphene nanosheets are the strongest material known but manufactured graphene tends to ...
Defects in graphene can profoundly impact its extraordinary properties, ultimately influencing the p...
Notably known for its extraordinary thermal and mechanical properties, graphene is a favorable build...
© 2021 Author(s).Since the local and elastic strain induced by nanobubbles largely affects the trans...
Graphene is an exotic nanomaterial consisting of a single layer of carbon atoms arranged in a two-di...
The identification of atomic vacancy defects in graphene is an important and challenging issue, whic...
Understanding fracture is critical to the design of resilient nanomaterials. Molecular dynamics offe...
The possibility of band gap engineering in graphene opens countless new opportunities for applicatio...
Despite the tremendous capabilities of Molecular dynamics (MD) simulations, they suffer from the lim...
Machine learning is a powerful way of uncovering hidden structure/property relationships in nanoscal...
Machine learning (ML) has been vastly used in various fields, but its application in engineering sci...
The presence of point defects, such as vacancies, plays an important role in materials design. Here,...
Challenge 3 was focused on the identification of defects present within graphene sheets. Provided wi...
The presence of point defects such as vacancies plays an important role in material design. Here, we...
Abstract Modification of physical properties of materials and design of materials with on-demand cha...
Defect-free graphene nanosheets are the strongest material known but manufactured graphene tends to ...
Defects in graphene can profoundly impact its extraordinary properties, ultimately influencing the p...
Notably known for its extraordinary thermal and mechanical properties, graphene is a favorable build...
© 2021 Author(s).Since the local and elastic strain induced by nanobubbles largely affects the trans...
Graphene is an exotic nanomaterial consisting of a single layer of carbon atoms arranged in a two-di...
The identification of atomic vacancy defects in graphene is an important and challenging issue, whic...
Understanding fracture is critical to the design of resilient nanomaterials. Molecular dynamics offe...
The possibility of band gap engineering in graphene opens countless new opportunities for applicatio...
Despite the tremendous capabilities of Molecular dynamics (MD) simulations, they suffer from the lim...
Machine learning is a powerful way of uncovering hidden structure/property relationships in nanoscal...
Machine learning (ML) has been vastly used in various fields, but its application in engineering sci...
The presence of point defects, such as vacancies, plays an important role in materials design. Here,...
Challenge 3 was focused on the identification of defects present within graphene sheets. Provided wi...
The presence of point defects such as vacancies plays an important role in material design. Here, we...
Abstract Modification of physical properties of materials and design of materials with on-demand cha...
Defect-free graphene nanosheets are the strongest material known but manufactured graphene tends to ...