Add to ORKGThe interaction between carbon nanostructures like quantum dots and radiation can generate different effects inside the nanomaterial, with the use of computational methods such effects can be predicted and optimize the material allowing a desired output. In this work, a theoretical model for pristine graphene quantum dots is studied, allowing to explain the shape and size dependence for the electronic properties and how the bandgap can be tuned with the functionalization of the nanostructure at the edges.Comment: 10 pages, 10 figure
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
The influence of edge structure on the electronic properties of graphene quantum dots and nanoribbon...
The technological advancement in the semiconductor industry in the past few decades has mainly been ...
Graphene quantum dots (GQDs) are nanosized fragments of graphene containing a bandgap caused by edge...
An alternative model to describe the electronic and thermal properties of quantum dot based on trian...
International audienceThe outstanding electronic, optical and mechanical properties of graphene stro...
International audienceThe outstanding electronic, optical and mechanical properties of graphene stro...
International audienceThe outstanding electronic, optical and mechanical properties of graphene stro...
As the level of complexity of nanoscale materials increases, new methods for quantifying accurate st...
Graphene quantum dots (GQDs) are an innovative class of zero-dimensional graphitic nanomaterials wit...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
The influence of edge structure on the electronic properties of graphene quantum dots and nanoribbon...
The technological advancement in the semiconductor industry in the past few decades has mainly been ...
Graphene quantum dots (GQDs) are nanosized fragments of graphene containing a bandgap caused by edge...
An alternative model to describe the electronic and thermal properties of quantum dot based on trian...
International audienceThe outstanding electronic, optical and mechanical properties of graphene stro...
International audienceThe outstanding electronic, optical and mechanical properties of graphene stro...
International audienceThe outstanding electronic, optical and mechanical properties of graphene stro...
As the level of complexity of nanoscale materials increases, new methods for quantifying accurate st...
Graphene quantum dots (GQDs) are an innovative class of zero-dimensional graphitic nanomaterials wit...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...
International audienceIn the last decades, research on graphene has been extensively developed. It i...