Add to ORKGWe investigate the atomic and electronic structures of cyclooctatetraene (COT) molecules on graphene and analyze their dependence on external gate voltage using first-principles calculations. The external gate voltage is simulated by adding or removing electrons using density functional theory calculations. This allows us to investigate how changes in carrier density modify the molecular shape, orientation, adsorption site, diffusion barrier, and diffusion path. For increased hole doping, COT molecules gradually change their shape to a more flattened conformation and the distance between the molecules and graphene increases while the diffusion barrier drastically decreases. For increased electron doping, an abrupt transition to a planar con...
Graphene has conquered the field of Cutting Edge Technology as the ultimate next generation material...
Graphene has conquered the field of Cutting Edge Technology as the ultimate next generation material...
We present atomistic calculations of quantum coherent electron transport through fulleropyrrolidine ...
We investigate the atomic and electronic structures of cyclooctatetraene (COT) molecules on graphene...
We investigate the atomic and electronic structures of cyclooctatetraene (COT) molecules on graphene...
International audienceGraphene-based two-dimensional materials have attracted an increasing attentio...
© 2015 The Royal Society of Chemistry. The electronic structure of physisorbed molecules containing ...
This dissertation research is focused on first principles studies of graphene and single organic mol...
This dissertation research is focused on first principles studies of graphene and single organic mol...
This dissertation research is focused on first principles studies of graphene and single organic mol...
Noncovalent functionalization via physisorption of organic molecules provides a scalable approach fo...
Noncovalent functionalization via physisorption of organic molecules provides a scalable approach fo...
Density functional theory (DFT) is applied to three models for carbon-based molecular junctions cont...
We performed density-functional theory calculations to study the electronic structures at the interf...
Graphene field-effect transistor structures were used to investigate the role of molecular alignment...
Graphene has conquered the field of Cutting Edge Technology as the ultimate next generation material...
Graphene has conquered the field of Cutting Edge Technology as the ultimate next generation material...
We present atomistic calculations of quantum coherent electron transport through fulleropyrrolidine ...
We investigate the atomic and electronic structures of cyclooctatetraene (COT) molecules on graphene...
We investigate the atomic and electronic structures of cyclooctatetraene (COT) molecules on graphene...
International audienceGraphene-based two-dimensional materials have attracted an increasing attentio...
© 2015 The Royal Society of Chemistry. The electronic structure of physisorbed molecules containing ...
This dissertation research is focused on first principles studies of graphene and single organic mol...
This dissertation research is focused on first principles studies of graphene and single organic mol...
This dissertation research is focused on first principles studies of graphene and single organic mol...
Noncovalent functionalization via physisorption of organic molecules provides a scalable approach fo...
Noncovalent functionalization via physisorption of organic molecules provides a scalable approach fo...
Density functional theory (DFT) is applied to three models for carbon-based molecular junctions cont...
We performed density-functional theory calculations to study the electronic structures at the interf...
Graphene field-effect transistor structures were used to investigate the role of molecular alignment...
Graphene has conquered the field of Cutting Edge Technology as the ultimate next generation material...
Graphene has conquered the field of Cutting Edge Technology as the ultimate next generation material...
We present atomistic calculations of quantum coherent electron transport through fulleropyrrolidine ...