Add to ORKGInteractions between defects in graphene and the lattice distortion and electronic charge localization induced by the defect interactions are studied by tight-binding (TB) calculations using the recently developed three-center TB potential model. The interaction between two 5–7 Stone–Wales defects gliding along the zig-zag (ZZ) direction of graphene, which has been observed by experiment, is studied at first to validate the TB calculations. Reconstructed divacancy defect pairs and di-adatom defect pairs separated along the glide ZZ and armchair (AC) directions in graphene, respectively, are then studied. We show that the characteristics (i.e., attractive or repulsive) and the strength of interactions between these defects are dependent on t...
Stone-Wales (SW) defects, analogous to dislocations in crystals, play an important role in mechanica...
Classical molecular dynamics with the AIREBO potential is used to investigate the effect of two type...
Vacancy defects play an important role in influencing the properties of graphene and understanding t...
Interactions between defects in graphene and the lattice distortion and electronic charge localizati...
Like in many other materials, the presence of topological defects in graphene has been demonstrated ...
By means of tight-binding atomistic simulations we study a family of native defects in graphene rece...
Defects play a critical role for the functionality and performance of materials, but the understandi...
Graphene is a one atom thick layer of carbon atoms arranged in hexagonal lattice in two-dimensions. ...
Stone-Wales (SW) defects, analogous to dislocations in crystals, play an important role in mechanica...
We present a new semiempirical potential for graphene, which includes also an put-of-plane energy te...
The density functional tight binding approach (DFTB) is well adapted for the study of point and line...
International audienceWe report on the dynamical behavior of single divacancy defects in large graph...
Graphene has attracted immense investigation since its discovery. Lattice imperfections are introduc...
The study deals with electronic properties of uniaxially stressed mono- and multi-layer graphene she...
The tensile properties of graphene with the Stone-Wales (S-W) defect are investigated by first princ...
Stone-Wales (SW) defects, analogous to dislocations in crystals, play an important role in mechanica...
Classical molecular dynamics with the AIREBO potential is used to investigate the effect of two type...
Vacancy defects play an important role in influencing the properties of graphene and understanding t...
Interactions between defects in graphene and the lattice distortion and electronic charge localizati...
Like in many other materials, the presence of topological defects in graphene has been demonstrated ...
By means of tight-binding atomistic simulations we study a family of native defects in graphene rece...
Defects play a critical role for the functionality and performance of materials, but the understandi...
Graphene is a one atom thick layer of carbon atoms arranged in hexagonal lattice in two-dimensions. ...
Stone-Wales (SW) defects, analogous to dislocations in crystals, play an important role in mechanica...
We present a new semiempirical potential for graphene, which includes also an put-of-plane energy te...
The density functional tight binding approach (DFTB) is well adapted for the study of point and line...
International audienceWe report on the dynamical behavior of single divacancy defects in large graph...
Graphene has attracted immense investigation since its discovery. Lattice imperfections are introduc...
The study deals with electronic properties of uniaxially stressed mono- and multi-layer graphene she...
The tensile properties of graphene with the Stone-Wales (S-W) defect are investigated by first princ...
Stone-Wales (SW) defects, analogous to dislocations in crystals, play an important role in mechanica...
Classical molecular dynamics with the AIREBO potential is used to investigate the effect of two type...
Vacancy defects play an important role in influencing the properties of graphene and understanding t...