We have developed a novel method of producing ultra-short channel graphene field effect devices on SiO2 substrates and have studied their electrical transport properties. A nonlinear current behavior is observed coupled with a quasi-saturation effect. An analytical model is developed to explain this behavior using ballistic transport, where the charge carriers experience minimal scattering. We also observe multilevel resistive switching after the device is electrically stressed. In addition, we have studied the evolution of the electrical transport properties of few-layer graphene during electrical breakdown. We are able to significantly increase the time scale of break junction formation, and we are able to observe changes occurring close ...
The electrical transport measurements on a suspended ultra-low-disorder graphene nanoribbon (GNR) wi...
Provided the electrical properties of electroburnt graphene junctions can be understood and controll...
In this thesis a variety of topics concerning 2D materials that have been separated from bulk layere...
There is a movement in the electronic industry toward building electronic devices with dimensions sm...
The physical mechanisms limiting the mobility of graphene on SiO2 are studied and printed graphene d...
This thesis describes experiments to characterize defects in two-dimensional materials and understan...
We report on the characterization of the electrical breakdown (EB) process for the formation of tunn...
This letter presents a detailed study of transport in graphene field-effect transistors (GFETs) with...
Nano-objects have unique properties due to their sizes, shapes and structure. When electronic proper...
This dissertation is inspired by recent progress in the chemistry, physics, and nanotec...
Graphene's superlative electrical and mechanical properties, combined with its compatibility with ex...
The growth and widespread use of consumer electronics over the last decade has been driven by the ev...
Graphene is an exciting new atomically-thin two-dimensional (2D) system of carbon atoms organized in...
In the recent years, graphene-based atomic switches joined the non-volatile memory race. Many teams ...
Graphene, a single atom thick plane of graphite, is a novel two-dimensional electron system in which...
The electrical transport measurements on a suspended ultra-low-disorder graphene nanoribbon (GNR) wi...
Provided the electrical properties of electroburnt graphene junctions can be understood and controll...
In this thesis a variety of topics concerning 2D materials that have been separated from bulk layere...
There is a movement in the electronic industry toward building electronic devices with dimensions sm...
The physical mechanisms limiting the mobility of graphene on SiO2 are studied and printed graphene d...
This thesis describes experiments to characterize defects in two-dimensional materials and understan...
We report on the characterization of the electrical breakdown (EB) process for the formation of tunn...
This letter presents a detailed study of transport in graphene field-effect transistors (GFETs) with...
Nano-objects have unique properties due to their sizes, shapes and structure. When electronic proper...
This dissertation is inspired by recent progress in the chemistry, physics, and nanotec...
Graphene's superlative electrical and mechanical properties, combined with its compatibility with ex...
The growth and widespread use of consumer electronics over the last decade has been driven by the ev...
Graphene is an exciting new atomically-thin two-dimensional (2D) system of carbon atoms organized in...
In the recent years, graphene-based atomic switches joined the non-volatile memory race. Many teams ...
Graphene, a single atom thick plane of graphite, is a novel two-dimensional electron system in which...
The electrical transport measurements on a suspended ultra-low-disorder graphene nanoribbon (GNR) wi...
Provided the electrical properties of electroburnt graphene junctions can be understood and controll...
In this thesis a variety of topics concerning 2D materials that have been separated from bulk layere...