Add to ORKGSpectroscopic studies of electronic phenomena in graphene are reviewed. A variety of methods and techniques are surveyed, from quasiparticle spectroscopies (tunneling, photoemission) to methods probing density and current response (infrared optics, Raman) to scanning probe nanoscopy and ul-trafast pump-probe experiments. Vast complimentary information derived from these investigations is shown to highlight unusual properties of Dirac quasiparticles and many-body interaction effects in the physics of graphene
Graphene is a perfectly two-dimensional single-atom thin membrane with zero bandgap. It has attracte...
We have determined the electronic bandstructure of clean and potassium-doped single layer graphene, ...
In this thesis, the Raman/white light spectroscopy and imaging are used to probe electronic, vibrati...
Spectroscopic studies of electronic phenomena in graphene are reviewed. A variety of methods and tec...
Single-layer graphene has been widely researched in recent years due to its perceived technological ...
A remarkable manifestation of the quantum character of electrons in matter is offered by graphene, a...
A remarkable manifestation of the quantum character of electrons in matter is offered by graphene, a...
This dissertation presents research on scanning probe microscopy and spectroscopy of graphene and ca...
In the two-dimensional (2D) lattice of graphene, consisting of carbon atoms arranged in a honeycomb...
A number of interesting properties of graphene and graphite are postulated to derive from the peculi...
Graphene is a candidate material to replace silicon for the development of electronic devices with u...
Raman spectroscopy is an integral part of graphene research. It is used to determine the number and ...
Graphene, a two-dimensional carbon allotrope, has interesting electronic properties resulting from i...
A full exploitation of the unique features of graphene and related 2D materials in micro and nano-sc...
The effectively massless, relativistic behaviour of graphene's charge carriers—known as Dirac fermio...
Graphene is a perfectly two-dimensional single-atom thin membrane with zero bandgap. It has attracte...
We have determined the electronic bandstructure of clean and potassium-doped single layer graphene, ...
In this thesis, the Raman/white light spectroscopy and imaging are used to probe electronic, vibrati...
Spectroscopic studies of electronic phenomena in graphene are reviewed. A variety of methods and tec...
Single-layer graphene has been widely researched in recent years due to its perceived technological ...
A remarkable manifestation of the quantum character of electrons in matter is offered by graphene, a...
A remarkable manifestation of the quantum character of electrons in matter is offered by graphene, a...
This dissertation presents research on scanning probe microscopy and spectroscopy of graphene and ca...
In the two-dimensional (2D) lattice of graphene, consisting of carbon atoms arranged in a honeycomb...
A number of interesting properties of graphene and graphite are postulated to derive from the peculi...
Graphene is a candidate material to replace silicon for the development of electronic devices with u...
Raman spectroscopy is an integral part of graphene research. It is used to determine the number and ...
Graphene, a two-dimensional carbon allotrope, has interesting electronic properties resulting from i...
A full exploitation of the unique features of graphene and related 2D materials in micro and nano-sc...
The effectively massless, relativistic behaviour of graphene's charge carriers—known as Dirac fermio...
Graphene is a perfectly two-dimensional single-atom thin membrane with zero bandgap. It has attracte...
We have determined the electronic bandstructure of clean and potassium-doped single layer graphene, ...
In this thesis, the Raman/white light spectroscopy and imaging are used to probe electronic, vibrati...