Interplay of boundary states of graphene nanoribbons with a Kondo impurity
We investigate the interplay of two highly localized, nearly degenerate electronic states,
namely, a zero-energy edge mode in a graphene nanoribbon on the one hand and an …
namely, a zero-energy edge mode in a graphene nanoribbon on the one hand and an …
Interplay of boundary states of graphene nanoribbons with a Kondo impurity
S Karan, T Frank, T Preis, J Eroms… - Physical …, 2022 - ui.adsabs.harvard.edu
We investigate the interplay of two highly localized, nearly degenerate electronic states,
namely, a zero-energy edge mode in a graphene nanoribbon on the one hand and an …
namely, a zero-energy edge mode in a graphene nanoribbon on the one hand and an …
Interplay of boundary states of graphene nanoribbons with a Kondo impurity
S Karan, T Frank, T Preis, J Eroms, J Fabian… - Phys. Rev …, 2022 - epub.uni-regensburg.de
We investigate the interplay of two highly localized, nearly degenerate electronic states,
namely, a zero-energy edge mode in a graphene nanoribbon on the one hand and an …
namely, a zero-energy edge mode in a graphene nanoribbon on the one hand and an …
[PDF][PDF] Interplay of boundary states of graphene nanoribbons with a Kondo impurity
S Karan, T Frank, T Preis, J Eroms… - … REVIEW B Phys …, 2022 - scholar.archive.org
Graphene nanoribbons (GNRs), the quasi-one-dimensional graphene, have been proposed
as building blocks for future nanoelectronic devices owing to their versatility. While offering a …
as building blocks for future nanoelectronic devices owing to their versatility. While offering a …