Add to ORKGThe interest in doped and functionalized graphene nanomaterials for various applications is growing due to the development of new and simple production and treatment methods. Amongst the techniques used to treat graphene nanomaterials dry methods like plasmas or ion beams are of particular interest. In this work a low temperature plasma technique is used to incorporate nitrogen atoms into the carbon network of graphene sheets. In order to gain a better understanding of such processes material analysis techniques NEXAFS and XPS were combined with the results coming from molecular dynamics simulations and plasma know how. The results show that the plasma post treatment of graphene nanowalls can be regarded as a balance between vacancy forma...
In this work, we report on the modification of electronic and magnetic properties of few layered gra...
Graphene, an atom thick layer of carbon, has attracted intense scientific interest due to its except...
The article of record as published may be found at http://dx.doi.org/10.1166/nnl.2016.2055This work ...
The interest in doped and functionalized graphene nanomaterials for various applications is growing ...
International audienceWe investigate the nitrogen doping of mono-and bi-layer graphene on 6HeSiC(000...
This report details the controllable doping of graphene through post?growth plasma treatments. Defec...
We report experimental and theoretical investigations of nitrogen doped graphene. A low-pressure Che...
Functionalization of graphene by substitution of carbon with nitrogen atoms is a promising way to ta...
Atomic-level substitutional doping can significantly tune the electronic properties of graphene. Usi...
We report on an adjustable process for the functionalisation of graphene surfaces with a downstream ...
High level of nitrogen doping (∼25%) of free-standing graphene sheets was achieved using the remote ...
Multilayer graphene (MLGR) and its bulk analog, highly oriented pyrolytic graphite (HOPG), were trea...
© Published under licence by IOP Publishing Ltd. The possibility of doping graphene during its synth...
New techniques to manipulate the electronic properties of few layer 2D materials, unveiling new phys...
[[abstract]]In this article, we report the modification of the electronic and magnetic properties of...
In this work, we report on the modification of electronic and magnetic properties of few layered gra...
Graphene, an atom thick layer of carbon, has attracted intense scientific interest due to its except...
The article of record as published may be found at http://dx.doi.org/10.1166/nnl.2016.2055This work ...
The interest in doped and functionalized graphene nanomaterials for various applications is growing ...
International audienceWe investigate the nitrogen doping of mono-and bi-layer graphene on 6HeSiC(000...
This report details the controllable doping of graphene through post?growth plasma treatments. Defec...
We report experimental and theoretical investigations of nitrogen doped graphene. A low-pressure Che...
Functionalization of graphene by substitution of carbon with nitrogen atoms is a promising way to ta...
Atomic-level substitutional doping can significantly tune the electronic properties of graphene. Usi...
We report on an adjustable process for the functionalisation of graphene surfaces with a downstream ...
High level of nitrogen doping (∼25%) of free-standing graphene sheets was achieved using the remote ...
Multilayer graphene (MLGR) and its bulk analog, highly oriented pyrolytic graphite (HOPG), were trea...
© Published under licence by IOP Publishing Ltd. The possibility of doping graphene during its synth...
New techniques to manipulate the electronic properties of few layer 2D materials, unveiling new phys...
[[abstract]]In this article, we report the modification of the electronic and magnetic properties of...
In this work, we report on the modification of electronic and magnetic properties of few layered gra...
Graphene, an atom thick layer of carbon, has attracted intense scientific interest due to its except...
The article of record as published may be found at http://dx.doi.org/10.1166/nnl.2016.2055This work ...