We study the effect of extended charge defects in electronic transport properties of graphene. Extended defects are ubiquitous in chemically and epitaxially grown graphene samples due to internal strains associated with the lattice mismatch. We show that at low energies these defects interact quite strongly with the 2D Dirac fermions and have an important effect in the DC-conductivity of these materials
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
Since the outstanding transport properties of graphene originate from its specific structure, modifi...
We study the effect of extended charge defects in electronic transport properties of graphene. Exten...
We study the e ect of extended charge defects in electronic transport properties of graphene. Exten...
We study the effect of extended charge defects in electronic transport properties of graphene. Exten...
The outstanding transport properties of graphene drastically depend on the details of its atomic str...
We report on systematic study of electronic transport behaviour of low-biased, disordered graphene n...
Implementing the quantum-mechanical Kubo-Greenwood formalism for the numerical calculation of dc con...
Two-dimensional carbon, or graphene, is a semimetal that presents unusual low-energy electronic exci...
The chapter combines analytical (statistical-thermodynamic and kinetic) with numeri-cal (Kubo–Greenw...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
Since the outstanding transport properties of graphene originate from its specific structure, modifi...
We study the effect of extended charge defects in electronic transport properties of graphene. Exten...
We study the e ect of extended charge defects in electronic transport properties of graphene. Exten...
We study the effect of extended charge defects in electronic transport properties of graphene. Exten...
The outstanding transport properties of graphene drastically depend on the details of its atomic str...
We report on systematic study of electronic transport behaviour of low-biased, disordered graphene n...
Implementing the quantum-mechanical Kubo-Greenwood formalism for the numerical calculation of dc con...
Two-dimensional carbon, or graphene, is a semimetal that presents unusual low-energy electronic exci...
The chapter combines analytical (statistical-thermodynamic and kinetic) with numeri-cal (Kubo–Greenw...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
We demonstrate the existence of localized states in close vicinity of a linear defect in graphene. T...
Since the outstanding transport properties of graphene originate from its specific structure, modifi...