The ability to understand and control the electronic properties of individual molecules in a device environment is crucial for developing future technologies at the nanometre scale and below. Achieving this, however, requires the creation of three-terminal devices that allow single molecules to be both gated and imaged at the atomic scale. We have accomplished this by integrating a graphene field effect transistor with a scanning tunnelling microscope, thus allowing gate-controlled charging and spectroscopic interrogation of individual tetrafluoro-tetracyanoquinodimethane molecules. We observe a non-rigid shift in the molecule's lowest unoccupied molecular orbital energy (relative to the Dirac point) as a function of gate voltage due to gra...
In an effort to make advances in electronics through ever smaller devices, the field of molecular el...
Gate-controlled tuning of the charge carrier density in graphene devices provides new opportunities ...
Gate-controlled tuning of the charge carrier density in graphene devices provides new opportunities ...
The ability to understand and control the electronic properties of individual molecules in a device ...
The ability to understand and control the electronic properties of individual molecules in a device ...
The ability to modify the electronic properties of monolayer graphene via charge-donating or charge-...
The ability to modify the electronic properties of monolayer graphene via charge-donating or charge-...
Molecular electronics is based on the use of single molecules as elementary functional electronic co...
Molecular electronics is based on the use of single molecules as elementary functional electronic co...
The spatial arrangement of adsorbates deposited onto a clean surface under vacuum typically cannot b...
The spatial arrangement of adsorbates deposited onto a clean surface under vacuum typically cannot b...
Single molecule transistors are useful for studying both the charge and spin states of molecules. T...
Graphene provides a two-dimensional platform for contacting individual molecules, which enables tran...
Graphene provides a two-dimensional platform for contacting individual molecules, which enables tran...
Graphene provides a two-dimensional platform for contacting individual molecules, which enables tran...
In an effort to make advances in electronics through ever smaller devices, the field of molecular el...
Gate-controlled tuning of the charge carrier density in graphene devices provides new opportunities ...
Gate-controlled tuning of the charge carrier density in graphene devices provides new opportunities ...
The ability to understand and control the electronic properties of individual molecules in a device ...
The ability to understand and control the electronic properties of individual molecules in a device ...
The ability to modify the electronic properties of monolayer graphene via charge-donating or charge-...
The ability to modify the electronic properties of monolayer graphene via charge-donating or charge-...
Molecular electronics is based on the use of single molecules as elementary functional electronic co...
Molecular electronics is based on the use of single molecules as elementary functional electronic co...
The spatial arrangement of adsorbates deposited onto a clean surface under vacuum typically cannot b...
The spatial arrangement of adsorbates deposited onto a clean surface under vacuum typically cannot b...
Single molecule transistors are useful for studying both the charge and spin states of molecules. T...
Graphene provides a two-dimensional platform for contacting individual molecules, which enables tran...
Graphene provides a two-dimensional platform for contacting individual molecules, which enables tran...
Graphene provides a two-dimensional platform for contacting individual molecules, which enables tran...
In an effort to make advances in electronics through ever smaller devices, the field of molecular el...
Gate-controlled tuning of the charge carrier density in graphene devices provides new opportunities ...
Gate-controlled tuning of the charge carrier density in graphene devices provides new opportunities ...
.jpg%3Fwidth%3D300&w=3840&q=75)
Add to ORKG