Add to ORKGWe report the results of first-principles density functional theory calculations of the Young's modulus and other mechanical properties of hydrogen-passivated Si {l_angle}001{r_angle} nanowires. The nanowires are taken to have predominantly {l_brace}100{r_brace}surfaces, with small {l_brace}110{r_brace} facets according to the Wulff shape. The Young's modulus, the equilibrium length and the constrained residual stress of a series of prismatic beams of differing sizes are found to have size dependences that scale like the surface area to volume ratio for all but the smallest beam. The results are compared with a continuum model and the results of classical atomistic calculations based on an empirical potential. We attribute the size dependen...
Among the challenges faced in further miniaturization of electronic devices, heavy influence of the ...
This work proposes a new approach to characterize the mechanical properties of nanowires based on a ...
The elastic properties of metallic and semiconducting nanowires were analyzed by different technique...
We report the results of first-principles calculations of the Young's modulus and other mechanical p...
Using the concept of surface stress, we developed a model that is able to predict Young’s modulus of...
Silicon nanowires have attracted considerable interest due to their wide-ranging applications in nan...
Nanowires constitute one of the fundamental building blocks in assembled nanodevices. Due to the hig...
Nanowires are an exciting class of novel materials that have potential applications in areas includi...
Abstract Nanowires have been taken much attention as a nanoscale building block, which can perform t...
This paper investigates atomic structure, mechanical, electronic, and magnetic properties of silicon...
Molecular dynamics simulations are employed to study the effect of native oxide on the size-dependen...
We present a theoretical model to calculate the flexural rigidity of nanowires from three-dimensiona...
Various experimental techniques have been used to determine the mechanical properties at the nanosc...
This paper studies the mechanical properties of a silicon nanowire (SiNW) under uniaxial tension and...
An ab initio core-shell model is proposed to evaluate the surface effect in bending nanowires, in wh...
Among the challenges faced in further miniaturization of electronic devices, heavy influence of the ...
This work proposes a new approach to characterize the mechanical properties of nanowires based on a ...
The elastic properties of metallic and semiconducting nanowires were analyzed by different technique...
We report the results of first-principles calculations of the Young's modulus and other mechanical p...
Using the concept of surface stress, we developed a model that is able to predict Young’s modulus of...
Silicon nanowires have attracted considerable interest due to their wide-ranging applications in nan...
Nanowires constitute one of the fundamental building blocks in assembled nanodevices. Due to the hig...
Nanowires are an exciting class of novel materials that have potential applications in areas includi...
Abstract Nanowires have been taken much attention as a nanoscale building block, which can perform t...
This paper investigates atomic structure, mechanical, electronic, and magnetic properties of silicon...
Molecular dynamics simulations are employed to study the effect of native oxide on the size-dependen...
We present a theoretical model to calculate the flexural rigidity of nanowires from three-dimensiona...
Various experimental techniques have been used to determine the mechanical properties at the nanosc...
This paper studies the mechanical properties of a silicon nanowire (SiNW) under uniaxial tension and...
An ab initio core-shell model is proposed to evaluate the surface effect in bending nanowires, in wh...
Among the challenges faced in further miniaturization of electronic devices, heavy influence of the ...
This work proposes a new approach to characterize the mechanical properties of nanowires based on a ...
The elastic properties of metallic and semiconducting nanowires were analyzed by different technique...