Add to ORKGABSTRACT: The local atomic bonding of carbon atoms around the edge of graphene is examined by aberration-corrected scanning transmission electron microscopy (STEM) combined with electron energy loss spectroscopy (EELS). High-resolution 2D maps of the EELS combined with atomic resolution annular dark field STEM images enables correlations between the carbon K-edge EELS and the atomic structure. We show that energy states of graphene edges vary across individual atoms along the edge according to their specific C−C bonding, as well as perpendicular to the edge. Unique spectroscopic peaks from the EELS are assigned to specific C atoms, which enables unambiguous spectroscopic fingerprint identification for the atomic structure of graphene edges ...
Low energy electron beam irradiation of the edges of graphene can lead to rearrangement of the carbo...
ABSTRACT: We study the bond lengths of silicon (Si) atoms attached to both armchair and zigzag edges...
We studied experimentally and theoretically the electronic local density of states (LDOS) near singl...
The local atomic bonding of carbon atoms around the edge of graphene is examined by aberration-corre...
The local atomic bonding of carbon atoms around the edge of graphene is examined by aberration-corre...
The local atomic bonding of carbon atoms around the edge of graphene is examined by aberration-corre...
Electron beam irradiation at 60 kV is used to open holes in graphene and expose fresh clean edges fo...
The spatial distributions of antibonding π∗ and σ∗ states in epitaxial graphene multilayers are mapp...
A systematic study of simulated atomic-resolution Electronic Energy-Loss Spectroscopy (EELS) for dif...
The atomic structure of a material influences its electronic, chemical, magnetic and mechanical prop...
Graphene has three experimentally confirmed periodic edge terminations, zigzag, reconstructed 5–7, a...
Zigzag edges of graphene nanostructures host localized electronic states that are predicted to be sp...
A systematic study of simulated atomic-resolution Electronic Energy-Loss Spectroscopy (EELS) for dif...
Bottom-up approaches exploiting on-surface synthesis reactions allow atomic-scale precision in the f...
Low energy electron beam irradiation of the edges of graphene can lead to rearrangement of the carbo...
Low energy electron beam irradiation of the edges of graphene can lead to rearrangement of the carbo...
ABSTRACT: We study the bond lengths of silicon (Si) atoms attached to both armchair and zigzag edges...
We studied experimentally and theoretically the electronic local density of states (LDOS) near singl...
The local atomic bonding of carbon atoms around the edge of graphene is examined by aberration-corre...
The local atomic bonding of carbon atoms around the edge of graphene is examined by aberration-corre...
The local atomic bonding of carbon atoms around the edge of graphene is examined by aberration-corre...
Electron beam irradiation at 60 kV is used to open holes in graphene and expose fresh clean edges fo...
The spatial distributions of antibonding π∗ and σ∗ states in epitaxial graphene multilayers are mapp...
A systematic study of simulated atomic-resolution Electronic Energy-Loss Spectroscopy (EELS) for dif...
The atomic structure of a material influences its electronic, chemical, magnetic and mechanical prop...
Graphene has three experimentally confirmed periodic edge terminations, zigzag, reconstructed 5–7, a...
Zigzag edges of graphene nanostructures host localized electronic states that are predicted to be sp...
A systematic study of simulated atomic-resolution Electronic Energy-Loss Spectroscopy (EELS) for dif...
Bottom-up approaches exploiting on-surface synthesis reactions allow atomic-scale precision in the f...
Low energy electron beam irradiation of the edges of graphene can lead to rearrangement of the carbo...
Low energy electron beam irradiation of the edges of graphene can lead to rearrangement of the carbo...
ABSTRACT: We study the bond lengths of silicon (Si) atoms attached to both armchair and zigzag edges...
We studied experimentally and theoretically the electronic local density of states (LDOS) near singl...