Add to ORKGGraphene based transistors relying on a conventional structure cannot switch properly because of the absence of an energy gap in graphene. To overcome this limitation, a barristor device was proposed, whose operation is based on the modulation of the graphene-semiconductor (GS) Schottky barrier by means of a top gate, and demonstrating an ON-OFF current ratio up to 10⁵. Such a large number is likely due to the realization of an ultra clean interface with virtually no interface trapped charge. However, it is indeed technologically relevant to know the impact that the interface trapped charges might have on the barristor's electrical properties. We have developed a physics based model of the gate tunable GS heterostructure where non-idealitie...
Metal-graphene contact resistance is a technological bottleneck in the realization of viable graphen...
We report the experimental studies demonstrating that an impervious graphene layer inserted at metal...
The unique band structure of graphene makes the gate leakage current in a graphene field-effect tran...
Graphene based transistors relying on a conventional structure cannot switch properly because of the...
Despite several years of research into graphene electronics, sufficient on/off current ratio Ion/Iof...
Graphene-semiconductor interface is important for the applications in electronic and optoelectronic ...
In the past decade graphene has been one of the most studied materials for several unique and excell...
<span lang="EN-US" style="font-family: "Calibri","sans-serif"; font-size: 10.5pt...
It is known that atoms can hardly penetrate a graphene layer due to the densely-spreading electron w...
An obstacle to the use of graphene as an alternative to silicon electronics has been the absence of ...
n-Type contact of Schottky barriers at two-dimensional (2D) materials/metal interfaces is a usual fo...
We report the systematic experimental studies demonstrating that a graphene layer inserted at Metal/...
With the end of Si based Metal Oxide Semiconductor Field Effect Transistor scaling paradigm approach...
Field-effect transistor (FET) devices composed of a MoS<sub>2</sub>–graphene heterostructure can com...
International audienceThe mechanisms governing the formation of Schottky barriers at graphene/hydrog...
Metal-graphene contact resistance is a technological bottleneck in the realization of viable graphen...
We report the experimental studies demonstrating that an impervious graphene layer inserted at metal...
The unique band structure of graphene makes the gate leakage current in a graphene field-effect tran...
Graphene based transistors relying on a conventional structure cannot switch properly because of the...
Despite several years of research into graphene electronics, sufficient on/off current ratio Ion/Iof...
Graphene-semiconductor interface is important for the applications in electronic and optoelectronic ...
In the past decade graphene has been one of the most studied materials for several unique and excell...
<span lang="EN-US" style="font-family: "Calibri","sans-serif"; font-size: 10.5pt...
It is known that atoms can hardly penetrate a graphene layer due to the densely-spreading electron w...
An obstacle to the use of graphene as an alternative to silicon electronics has been the absence of ...
n-Type contact of Schottky barriers at two-dimensional (2D) materials/metal interfaces is a usual fo...
We report the systematic experimental studies demonstrating that a graphene layer inserted at Metal/...
With the end of Si based Metal Oxide Semiconductor Field Effect Transistor scaling paradigm approach...
Field-effect transistor (FET) devices composed of a MoS<sub>2</sub>–graphene heterostructure can com...
International audienceThe mechanisms governing the formation of Schottky barriers at graphene/hydrog...
Metal-graphene contact resistance is a technological bottleneck in the realization of viable graphen...
We report the experimental studies demonstrating that an impervious graphene layer inserted at metal...
The unique band structure of graphene makes the gate leakage current in a graphene field-effect tran...