Add to ORKG© 2015 The Royal Society of Chemistry. The electronic structure of physisorbed molecules containing aromatic nitrogen heterocycles (triazine and melamine) on graphene is studied using a combination of electronic transport, X-ray photoemission spectroscopy and density functional theory calculations. The interfacial electronic structure and charge transfer of weakly coupled molecules on graphene is found to be governed by work function differences, molecular dipole moments and polarization effects. We demonstrate that molecular depolarization plays a significant role in these charge transfer mechanisms even at submonolayer coverage, particularly for molecules which possess strong dipoles. Electronic transport measurements show a reduction of ...
We performed density-functional theory calculations to study the electronic structures at the interf...
The ability to modify the electronic properties of monolayer graphene via charge-donating or charge-...
Charge transfer at the interface between dissimilar materials is at the heart of electronics and pho...
International audienceThe combination of graphene with molecules offers promising opportunities to a...
Graphene-based sensors are among the most promising of graphene's applications. The ability to signa...
Doping graphene with electron donating or accepting molecules is an interesting approach to introduc...
Doping graphene with electron donating or accepting molecules is an interesting approach to introd...
We review first the unique band structure of graphene and explain how the linear dispersion near the...
Current studies addressing the engineering of charge carrier concentration and the electronic band g...
Current studies addressing the engineering of charge carrier concentration and the electronic band g...
The ability to understand and control the electronic properties of individual molecules in a device ...
International audienceGraphene-based two-dimensional materials have attracted an increasing attentio...
The ability to modify the electronic properties of monolayer graphene via charge-donating or charge-...
Graphene is a promising material for use in microelectronics, due to its high mobility, operating fr...
International audienceGraphene sheets (mono- and multilayers) were synthesized by chemical vapor dep...
We performed density-functional theory calculations to study the electronic structures at the interf...
The ability to modify the electronic properties of monolayer graphene via charge-donating or charge-...
Charge transfer at the interface between dissimilar materials is at the heart of electronics and pho...
International audienceThe combination of graphene with molecules offers promising opportunities to a...
Graphene-based sensors are among the most promising of graphene's applications. The ability to signa...
Doping graphene with electron donating or accepting molecules is an interesting approach to introduc...
Doping graphene with electron donating or accepting molecules is an interesting approach to introd...
We review first the unique band structure of graphene and explain how the linear dispersion near the...
Current studies addressing the engineering of charge carrier concentration and the electronic band g...
Current studies addressing the engineering of charge carrier concentration and the electronic band g...
The ability to understand and control the electronic properties of individual molecules in a device ...
International audienceGraphene-based two-dimensional materials have attracted an increasing attentio...
The ability to modify the electronic properties of monolayer graphene via charge-donating or charge-...
Graphene is a promising material for use in microelectronics, due to its high mobility, operating fr...
International audienceGraphene sheets (mono- and multilayers) were synthesized by chemical vapor dep...
We performed density-functional theory calculations to study the electronic structures at the interf...
The ability to modify the electronic properties of monolayer graphene via charge-donating or charge-...
Charge transfer at the interface between dissimilar materials is at the heart of electronics and pho...