Add to ORKGLike in many other materials, the presence of topological defects in graphene has been demonstrated to modify its behavior, thus enhancing features aimed at several technological applications, more specifically, its electronic and transport properties. In particular, pristine defect-free graphene has been shown to be of limited use for semiconductor-based electronics, whereas the presence of individual or cluster defect rings along grain boundaries hinders electron transport and introduce a transport gap, unveiling the possibility of novel electronic device applications based on the structural engineering of graphene-based materials. In this work, we present an atomic bondwise force-constant model from the tight binding potential by Xu et a...
Sensoy, Mehmet Gokhan/0000-0003-4815-8061WOS: 000456876500012We investigate the transport properties...
An attractive strategy to generate semiconducting graphene layers is delineating rows of sp3 defects...
Since its monolayer exfoliation in 2004, graphene has been the focus of intense study revealing a mu...
Like in many other materials, the presence of topological defects in graphene has been demonstrated ...
Graphene is a one atom thick layer of carbon atoms arranged in hexagonal lattice in two-dimensions. ...
The interest in graphene among researchers has not ceased since Novoselov and Geim published their f...
The outstanding transport properties of graphene drastically depend on the details of its atomic str...
We present a new semiempirical potential for graphene, which includes also an put-of-plane energy te...
The study deals with electronic properties of uniaxially stressed mono- and multi-layer graphene she...
Interactions between defects in graphene and the lattice distortion and electronic charge localizati...
Tesis descargada desde TESEOEn la presente Tesis, se introduce la teoría de un modelo lineal y no li...
The density functional tight binding approach (DFTB) is well adapted for the study of point and line...
Motivated by the state of the art method for fabricating high-density periodic nanoscale defects in ...
By means of tight-binding atomistic simulations we study a family of native defects in graphene rece...
Graphene, thanks to its extraordinary electronic and mechanical properties, is a potential candidate...
Sensoy, Mehmet Gokhan/0000-0003-4815-8061WOS: 000456876500012We investigate the transport properties...
An attractive strategy to generate semiconducting graphene layers is delineating rows of sp3 defects...
Since its monolayer exfoliation in 2004, graphene has been the focus of intense study revealing a mu...
Like in many other materials, the presence of topological defects in graphene has been demonstrated ...
Graphene is a one atom thick layer of carbon atoms arranged in hexagonal lattice in two-dimensions. ...
The interest in graphene among researchers has not ceased since Novoselov and Geim published their f...
The outstanding transport properties of graphene drastically depend on the details of its atomic str...
We present a new semiempirical potential for graphene, which includes also an put-of-plane energy te...
The study deals with electronic properties of uniaxially stressed mono- and multi-layer graphene she...
Interactions between defects in graphene and the lattice distortion and electronic charge localizati...
Tesis descargada desde TESEOEn la presente Tesis, se introduce la teoría de un modelo lineal y no li...
The density functional tight binding approach (DFTB) is well adapted for the study of point and line...
Motivated by the state of the art method for fabricating high-density periodic nanoscale defects in ...
By means of tight-binding atomistic simulations we study a family of native defects in graphene rece...
Graphene, thanks to its extraordinary electronic and mechanical properties, is a potential candidate...
Sensoy, Mehmet Gokhan/0000-0003-4815-8061WOS: 000456876500012We investigate the transport properties...
An attractive strategy to generate semiconducting graphene layers is delineating rows of sp3 defects...
Since its monolayer exfoliation in 2004, graphene has been the focus of intense study revealing a mu...