Add to ORKGWe present a semi-abinitio - Density Functional Based Tight Binding (DFTB) study on the atomic and electronic structure of ZnS Nanowire (NW) and examine the dependence of surface stress on nanowire lateral size and shape. The ZnS wurtzite wire size ranges from 10 to 45Å and of various possible shapes - triangular, hexagonal and circular-like. We investigate the role of unsaturated dangling bond state in the region of band gap varying the wire's diameter. We have calculated the surface formation energy and find that it decreases with increasing the wire diameter and a greater stability (lower surface formation energy) comes with hexagonal and circular-like depending on wire's diameter. Other electronics and mechanical properties e.g. density...
Using the concept of surface stress, we developed a model that is able to predict Young’s modulus of...
Using the concept of surface stress, we developed a model that is able to predict Young’s modulus of...
The structural transformation of ZnS nanowires in high vacuum conditions induced by either atomic O ...
We present a Density Functional Based Tight Binding study on the crystallography and electronic stru...
The geometric, energetic, and electronic structures of zinc sulfide (ZnS) nanowires (NWs) and nanotu...
We have performed the Density Functional Tight Binding (DFTB) study on the structural properties of ...
Mechanical properties of ZnS nanowires and thin films are studied as a function of size and growth d...
Mechanical properties of ZnS nanowires and thin films are studied as a function of size and growth d...
Mechanical properties of ZnS nanowires and thin films are studied as a function of size and growth d...
AbstractZnO nanowires with different sizes and geometrical shapes have been studied by means of dens...
<p></p><p>ABSTRACT This Zinc oxide (ZnO) is widely used in different electronic devices due to its t...
Structural stability and electronic properties of bare and hydrogenated GaP nanowires in zinc-blende...
Using the first-principles density functional theory, we have investigated the geometric structure a...
Using the first-principles density functional theory, we have investigated the geometric structure a...
Using the concept of surface stress, we developed a model that is able to predict Young’s modulus of...
Using the concept of surface stress, we developed a model that is able to predict Young’s modulus of...
Using the concept of surface stress, we developed a model that is able to predict Young’s modulus of...
The structural transformation of ZnS nanowires in high vacuum conditions induced by either atomic O ...
We present a Density Functional Based Tight Binding study on the crystallography and electronic stru...
The geometric, energetic, and electronic structures of zinc sulfide (ZnS) nanowires (NWs) and nanotu...
We have performed the Density Functional Tight Binding (DFTB) study on the structural properties of ...
Mechanical properties of ZnS nanowires and thin films are studied as a function of size and growth d...
Mechanical properties of ZnS nanowires and thin films are studied as a function of size and growth d...
Mechanical properties of ZnS nanowires and thin films are studied as a function of size and growth d...
AbstractZnO nanowires with different sizes and geometrical shapes have been studied by means of dens...
<p></p><p>ABSTRACT This Zinc oxide (ZnO) is widely used in different electronic devices due to its t...
Structural stability and electronic properties of bare and hydrogenated GaP nanowires in zinc-blende...
Using the first-principles density functional theory, we have investigated the geometric structure a...
Using the first-principles density functional theory, we have investigated the geometric structure a...
Using the concept of surface stress, we developed a model that is able to predict Young’s modulus of...
Using the concept of surface stress, we developed a model that is able to predict Young’s modulus of...
Using the concept of surface stress, we developed a model that is able to predict Young’s modulus of...
The structural transformation of ZnS nanowires in high vacuum conditions induced by either atomic O ...