Atmospheric doping of supported graphene was investigated by Raman scattering under different pressures. Various Raman spectra parameters were found to depend on the pressure and the substrate material. The results are interpreted in terms of atmospheric adsorption leading to a change in graphene charge carrier density and the effect of the substrate on the electronic and phonon properties of graphene. It was found that adsorption of molecules from the atmosphere onto graphene doped with nitrogen (electron doping) compensates for the electron charge. Furthermore, the atmosphere-induced doping drastically decreases the spatial heterogeneity of charge carriers in graphene doped with nitrogen, while the opposite effect was observed for undoped...
International audienceIn this communication, we report data recorded by in situ Raman experiments on...
In situ electrochemical Raman spectroscopic measurements of defect-free monolayer graphene on variou...
The effect of pressure – by definition a 3-dimensional concept – on 2-dimensional systems brings a n...
Atmospheric doping of supported graphene was investigated by Raman scattering under different pressu...
Atmospheric doping of supported graphene was investigated by Raman scattering under different pressu...
International audienceThe ultimate surface exposure provided by graphene monolayer makes it the idea...
Raman spectroscopy was used to study the structure of graphene synthesized from methane by chemical ...
We investigated the inhomogeneities in the charge density of unintentionally doped graphene on SiO2 ...
We investigated the inhomogeneities in the charge density of unintentionally doped graphene on SiO2 ...
We investigated the inhomogeneities in the charge density of unintentionally doped graphene on SiO2 ...
We investigated the inhomogeneities in the charge density of unintentionally doped graphene on SiO2 ...
International audienceAbstract In this communication, we will illustrate how Raman spectroscopy can ...
The effect of vacuum annealing on the properties of graphene is investigated by using Raman spectros...
The electronic properties of graphene are highly sensitive to atoms and molecules adsorbed on its su...
International audienceIn this communication, we report data recorded by in situ Raman experiments on...
International audienceIn this communication, we report data recorded by in situ Raman experiments on...
In situ electrochemical Raman spectroscopic measurements of defect-free monolayer graphene on variou...
The effect of pressure – by definition a 3-dimensional concept – on 2-dimensional systems brings a n...
Atmospheric doping of supported graphene was investigated by Raman scattering under different pressu...
Atmospheric doping of supported graphene was investigated by Raman scattering under different pressu...
International audienceThe ultimate surface exposure provided by graphene monolayer makes it the idea...
Raman spectroscopy was used to study the structure of graphene synthesized from methane by chemical ...
We investigated the inhomogeneities in the charge density of unintentionally doped graphene on SiO2 ...
We investigated the inhomogeneities in the charge density of unintentionally doped graphene on SiO2 ...
We investigated the inhomogeneities in the charge density of unintentionally doped graphene on SiO2 ...
We investigated the inhomogeneities in the charge density of unintentionally doped graphene on SiO2 ...
International audienceAbstract In this communication, we will illustrate how Raman spectroscopy can ...
The effect of vacuum annealing on the properties of graphene is investigated by using Raman spectros...
The electronic properties of graphene are highly sensitive to atoms and molecules adsorbed on its su...
International audienceIn this communication, we report data recorded by in situ Raman experiments on...
International audienceIn this communication, we report data recorded by in situ Raman experiments on...
In situ electrochemical Raman spectroscopic measurements of defect-free monolayer graphene on variou...
The effect of pressure – by definition a 3-dimensional concept – on 2-dimensional systems brings a n...
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