http://www.gianlucafiori.org/articles/IEDM_2015_Contacts.pdfIn this paper we propose a theoretical and experimental study of the nature of metal-graphene contacts. We use ab-initio simulations and semi-analytical modeling to derive and validate a simple two-parameter model of metal-graphene contacts. Such findings are supported by experimental results for large samples of different types of metal-graphene contacts
The experimental results of Metal–graphene (M–G) contact resistance (RC) have been investigated in–d...
Here we present a Density Functional Theory (DFT) study on the suitability of modern corrections for...
In this work, graphene - metal contact theory and recent publications in this field are discussed. S...
One of the main technological issues to be solved in graphene technology is the realization of graph...
The performance of devices and systems based on two-dimensional material systems depends critically ...
The contact resistance of metal–graphene junctions has been actively explored and exhibited inconsis...
In this paper, a 3D metal-graphene contact with different contact structures (i.e., embedded contact...
The ambiguous behavior of metal-graphene interface has been addressed in this paper using density fu...
We present a study on the metal-graphene contact properties. Utilizing a dual-gate field-effect tran...
In this paper, a 3D metal-graphene contact with different contact structures (i.e.. embedded contact...
The two-dimensional material graphene has numerous potential applications in nano(opto)electronics, ...
The contact resistance between graphene and metal electrodes is crucial for the achievement of high-...
© 2015 AIP Publishing LLC. Achieving low resistance contacts to graphene is a common concern for gra...
Edge contacts to graphene can offer excellent contact properties. Role of different chemical termina...
Making devices with graphene necessarily involves making contacts with metals. We use density functi...
The experimental results of Metal–graphene (M–G) contact resistance (RC) have been investigated in–d...
Here we present a Density Functional Theory (DFT) study on the suitability of modern corrections for...
In this work, graphene - metal contact theory and recent publications in this field are discussed. S...
One of the main technological issues to be solved in graphene technology is the realization of graph...
The performance of devices and systems based on two-dimensional material systems depends critically ...
The contact resistance of metal–graphene junctions has been actively explored and exhibited inconsis...
In this paper, a 3D metal-graphene contact with different contact structures (i.e., embedded contact...
The ambiguous behavior of metal-graphene interface has been addressed in this paper using density fu...
We present a study on the metal-graphene contact properties. Utilizing a dual-gate field-effect tran...
In this paper, a 3D metal-graphene contact with different contact structures (i.e.. embedded contact...
The two-dimensional material graphene has numerous potential applications in nano(opto)electronics, ...
The contact resistance between graphene and metal electrodes is crucial for the achievement of high-...
© 2015 AIP Publishing LLC. Achieving low resistance contacts to graphene is a common concern for gra...
Edge contacts to graphene can offer excellent contact properties. Role of different chemical termina...
Making devices with graphene necessarily involves making contacts with metals. We use density functi...
The experimental results of Metal–graphene (M–G) contact resistance (RC) have been investigated in–d...
Here we present a Density Functional Theory (DFT) study on the suitability of modern corrections for...
In this work, graphene - metal contact theory and recent publications in this field are discussed. S...