Add to ORKGWe systematically dope monolayer graphene with different concentrations of nitric acid over a range of temperatures, and analyze the variation of sheet resistance after vacuum annealing up to 300 °C. The optimized HNO3 doping conditions yield sheet resistances as low as 180 Ω sq.−1, which is significantly more stable under vacuum annealing than previously reported values. Raman and photoemission spectroscopy suggest that this stable graphene doping occurs by a bi-modal mechanism. Under mild conditions the dopants are weakly bonded to graphene, but at high acid temperatures and concentrations, the doping is higher and more stable upon post-doping annealing, without causing significant lattice damage. This work shows that large, stable hole c...
Although graphene can be easily p-doped by various adsorbates, developing stable n-doped graphene th...
The mechanisms responsible for p-type doping of substrate supported monolayer graphene (Gr) by therm...
We report experimental and theoretical investigations of nitrogen doped graphene. A low-pressure Che...
The doping types of graphene sheets are generally tuned by different dopants with either three or fi...
Graphene is considered a leading candidate to replace conventional transparent conducting electrodes...
doping enables application-specific tailoring of graphene properties, it can also produce high defec...
While doping enables application specific tailoring of graphene properties, it can also produce high...
International audienceChemical doping of graphene is a key process for the modulation of its electro...
We report chemical doping (p-type) to reduce the sheet resistance of graphene films for the applicat...
A significant advance toward achieving practical applications of graphene as a two-dimensional mater...
In this work, we systematically investigate and compare noninvasive doping of chemical vapor deposit...
© 2017 Author(s). Transfer-induced contamination of graphene and the limited stability of adsorptive...
Graphene has proven to be a promising material for transparent flexible electronics. In this study, ...
To achieve the applications of graphene, the modulation of its electrical properties is of great sig...
Although graphene can be easily p-doped by various adsorbates, developing stable n-doped graphene th...
The mechanisms responsible for p-type doping of substrate supported monolayer graphene (Gr) by therm...
We report experimental and theoretical investigations of nitrogen doped graphene. A low-pressure Che...
The doping types of graphene sheets are generally tuned by different dopants with either three or fi...
Graphene is considered a leading candidate to replace conventional transparent conducting electrodes...
doping enables application-specific tailoring of graphene properties, it can also produce high defec...
While doping enables application specific tailoring of graphene properties, it can also produce high...
International audienceChemical doping of graphene is a key process for the modulation of its electro...
We report chemical doping (p-type) to reduce the sheet resistance of graphene films for the applicat...
A significant advance toward achieving practical applications of graphene as a two-dimensional mater...
In this work, we systematically investigate and compare noninvasive doping of chemical vapor deposit...
© 2017 Author(s). Transfer-induced contamination of graphene and the limited stability of adsorptive...
Graphene has proven to be a promising material for transparent flexible electronics. In this study, ...
To achieve the applications of graphene, the modulation of its electrical properties is of great sig...
Although graphene can be easily p-doped by various adsorbates, developing stable n-doped graphene th...
The mechanisms responsible for p-type doping of substrate supported monolayer graphene (Gr) by therm...
We report experimental and theoretical investigations of nitrogen doped graphene. A low-pressure Che...