Add to ORKGWe study extreme ultraviolet (EUV) radiation induced defects in single-layer graphene. Two mechanisms for inducing defects in graphene were separately investigated: photon induced chemical reactions between graphene and background residual gases, and breaking sp(2) bonds, due to photon and/or photoelectrons induced bond cleaving. Raman spectroscopy shows that D peak intensities grow after EUV irradiation with increasing water partial pressure in the exposure chamber. Temperature-programmed desorption (TPD) experiments prove that EUV radiation results in water dissociation on the graphene surface. The oxidation of graphene, caused by water dissociation, is triggered by photon and/or photoelectron induced dissociation of water. Our studies sh...
Raman spectroscopy and Monte-Carlo simulation studies for supported graphene irradiated by 160 MeV ...
The authors report on a facile method for introducing defects in graphene in a controlled manner. Sa...
Quantum mechanical-based kinetic Monte-Carlo calculations (KMC) are used to investigate mechanisms o...
We study extreme ultraviolet (EUV) radiation induced defects in single-layer graphene. Two mechanism...
We have studied the effect of photoelectrons on defect formation in graphene during extreme ultravio...
We use Raman spectroscopy to show that exposing few-layer graphene to extreme ultraviolet (EUV, 13.5...
We use Raman spectroscopy to show that exposing few-layer graphene to extreme ultraviolet (EUV, 13.5...
Defects in graphene greatly affect its properties1-3. Radiation induced-defects may reduce the long-...
In this paper we study the reaction of water and graphene under Extreme Ultraviolet (EUV) irradiatio...
We have investigated the UV-light-induced defect formation in single- and multilayer graphenes on a ...
International audienceThe reactivity and homogeneity of graphene surface, and, therefore its Raman s...
Successful application of graphene requires development of various tools for its chemical modificati...
We report the tuning of electrical properties of single layer graphene by a-beam irradiation. As the...
Raman spectroscopy and Monte-Carlo simulation studies for supported graphene irradiated by 160 MeV X...
The response of a free-standing graphene monolayer exposed to a few tens of femtoseconds long extrem...
Raman spectroscopy and Monte-Carlo simulation studies for supported graphene irradiated by 160 MeV ...
The authors report on a facile method for introducing defects in graphene in a controlled manner. Sa...
Quantum mechanical-based kinetic Monte-Carlo calculations (KMC) are used to investigate mechanisms o...
We study extreme ultraviolet (EUV) radiation induced defects in single-layer graphene. Two mechanism...
We have studied the effect of photoelectrons on defect formation in graphene during extreme ultravio...
We use Raman spectroscopy to show that exposing few-layer graphene to extreme ultraviolet (EUV, 13.5...
We use Raman spectroscopy to show that exposing few-layer graphene to extreme ultraviolet (EUV, 13.5...
Defects in graphene greatly affect its properties1-3. Radiation induced-defects may reduce the long-...
In this paper we study the reaction of water and graphene under Extreme Ultraviolet (EUV) irradiatio...
We have investigated the UV-light-induced defect formation in single- and multilayer graphenes on a ...
International audienceThe reactivity and homogeneity of graphene surface, and, therefore its Raman s...
Successful application of graphene requires development of various tools for its chemical modificati...
We report the tuning of electrical properties of single layer graphene by a-beam irradiation. As the...
Raman spectroscopy and Monte-Carlo simulation studies for supported graphene irradiated by 160 MeV X...
The response of a free-standing graphene monolayer exposed to a few tens of femtoseconds long extrem...
Raman spectroscopy and Monte-Carlo simulation studies for supported graphene irradiated by 160 MeV ...
The authors report on a facile method for introducing defects in graphene in a controlled manner. Sa...
Quantum mechanical-based kinetic Monte-Carlo calculations (KMC) are used to investigate mechanisms o...