An analytical theory to estimate the electronic work function in curved geometries is formulated under Thomas–Fermi approximation. The work function is framed as the work against the electrostatic self-capacitive energy. The contribution of surface curvature is characterized by mean and Gaussian curvature (through multiple scattering expansion). The variation in work function of metal and semimetal nanostructures is shown as the consequence of surface radius of curvature comparable to electronic screening length. For ellipsoidal particles, the maximum value of work function is observed at the equator and poles for oblate and prolate particles, respectively, whereas triaxial ellipsoid shows nonuniform distribution of the work function over t...
Curvature impacts physical properties across multiple length scales, ranging from the macroscopic sc...
p. 114512-(1-7)The effect of geometrical irregularities in the work function and emitting properties...
As the dimensions of a material shrink from an extended bulk solid to a nanoscale structure, size an...
An analytical theory to estimate the electronic work function in curved geometries is formulated und...
We derive the effective dimensionally reduced Schrödinger equation for electrons in strain-driven c...
When organic molecules are tethered onto non-spherical nanoparticles, their chemical properties depe...
Recent advances in nanotechnology have created tremendous excitement across different disciplines, b...
Properties of self-assembled monolayers (SAMs) can be tailored by the curvature of the underlying su...
ABSTRACT: We explore the limits of modifying metal work functions with large molecular dipoles by sy...
Carbon nanotube work functions can deviate from that of graphene due to geometric and structural fac...
The electronic charge densities and work functions at sharp metallic facet edges are determined from...
co th ru om ich o res due to particle curvature [7,8]. Among them, it is widely Fortunately, the cur...
In this paper we analyse the mechanisms responsible for the bonding of electrons to metal surfaces. ...
Shape sensitivity measures the impact of small perturbations of geometric features of a problem on c...
Due to larger surface to volume ratio, surfaces play a significant role at the nanoscale. Surface at...
Curvature impacts physical properties across multiple length scales, ranging from the macroscopic sc...
p. 114512-(1-7)The effect of geometrical irregularities in the work function and emitting properties...
As the dimensions of a material shrink from an extended bulk solid to a nanoscale structure, size an...
An analytical theory to estimate the electronic work function in curved geometries is formulated und...
We derive the effective dimensionally reduced Schrödinger equation for electrons in strain-driven c...
When organic molecules are tethered onto non-spherical nanoparticles, their chemical properties depe...
Recent advances in nanotechnology have created tremendous excitement across different disciplines, b...
Properties of self-assembled monolayers (SAMs) can be tailored by the curvature of the underlying su...
ABSTRACT: We explore the limits of modifying metal work functions with large molecular dipoles by sy...
Carbon nanotube work functions can deviate from that of graphene due to geometric and structural fac...
The electronic charge densities and work functions at sharp metallic facet edges are determined from...
co th ru om ich o res due to particle curvature [7,8]. Among them, it is widely Fortunately, the cur...
In this paper we analyse the mechanisms responsible for the bonding of electrons to metal surfaces. ...
Shape sensitivity measures the impact of small perturbations of geometric features of a problem on c...
Due to larger surface to volume ratio, surfaces play a significant role at the nanoscale. Surface at...
Curvature impacts physical properties across multiple length scales, ranging from the macroscopic sc...
p. 114512-(1-7)The effect of geometrical irregularities in the work function and emitting properties...
As the dimensions of a material shrink from an extended bulk solid to a nanoscale structure, size an...