Add to ORKGWe probe electron and hole mobilities in bilayer graphene under exposure to molecular oxygen. We find that the adsorbed oxygen reduces electron mobilities and increases hole mobilities in a reversible and activated process. Our experimental results indicate that hole mobilities increase due to the screening of long-range scatterers by oxygen molecules trapped between the graphene and the substrate. First principle calculations show that oxygen molecules induce resonant states close to the charge neutrality point. Electron coupling with such resonant states reduces the electron mobilities, causing a strong asymmetry between electron and hole transport. Our work demonstrates the importance of short-range scattering due to adsorbed species in ...
Graphene, with its unique band structure, mechanical stability, and high charge mobility, holds grea...
We study the binding of molecular oxygen to a graphene sheet and to a (8,0) single walled carbon nan...
ABSTRACT Using micro-Raman spectroscopy and scanning tunneling microscopy, we study the relationship...
We probe electron and hole mobilities in bilayer graphene under exposure to molecular oxygen. We fin...
We show abrupt changes in the electronic properties of graphene with different types of binding to o...
Using first-principles calculations within density functional theory, we demonstrate that the adsorp...
Conductivity, carrier concentration and carrier mobility in graphene were investigated as a function...
In this work, effects of oxygen adsorption and diffusion on the stability, morphology, and charge tr...
Copyright © 2014 American Physical SocietyRecently, there has been a great deal of interest in the e...
Impact of plasma treatment on graphene\u27s transport properties and interaction with gas molecules ...
Graphene oxide decorated with oxygen functional groups is a promising candidate as an active layer i...
Cataloged from PDF version of article.We demonstrate that graphene coating can provide efficient pro...
International audienceWe study the effects of polarizable substrates such as SiO2 and SiC on the car...
In this work, we study a basic mechanism for oxygen intercalation through defect sites due to possib...
Graphene has high potential in chemical sensing, thus understanding adsorption and charge transfer b...
Graphene, with its unique band structure, mechanical stability, and high charge mobility, holds grea...
We study the binding of molecular oxygen to a graphene sheet and to a (8,0) single walled carbon nan...
ABSTRACT Using micro-Raman spectroscopy and scanning tunneling microscopy, we study the relationship...
We probe electron and hole mobilities in bilayer graphene under exposure to molecular oxygen. We fin...
We show abrupt changes in the electronic properties of graphene with different types of binding to o...
Using first-principles calculations within density functional theory, we demonstrate that the adsorp...
Conductivity, carrier concentration and carrier mobility in graphene were investigated as a function...
In this work, effects of oxygen adsorption and diffusion on the stability, morphology, and charge tr...
Copyright © 2014 American Physical SocietyRecently, there has been a great deal of interest in the e...
Impact of plasma treatment on graphene\u27s transport properties and interaction with gas molecules ...
Graphene oxide decorated with oxygen functional groups is a promising candidate as an active layer i...
Cataloged from PDF version of article.We demonstrate that graphene coating can provide efficient pro...
International audienceWe study the effects of polarizable substrates such as SiO2 and SiC on the car...
In this work, we study a basic mechanism for oxygen intercalation through defect sites due to possib...
Graphene has high potential in chemical sensing, thus understanding adsorption and charge transfer b...
Graphene, with its unique band structure, mechanical stability, and high charge mobility, holds grea...
We study the binding of molecular oxygen to a graphene sheet and to a (8,0) single walled carbon nan...
ABSTRACT Using micro-Raman spectroscopy and scanning tunneling microscopy, we study the relationship...