The effects of materials, geometric parameters, and morphologies on the absorption properties of absorbers with the cone-like nanostructures surrounded by water have been numerically studied. The underlying mechanisms of the perfect absorption of solar energy are revealed by gradient index effect with electric field distributions. It shows that the absorber achieves perfect absorption for solar energy harvesting with nanocones made of Chromium (Cr), Nickel (Ni), Platinum (Pt), Titanium (Ti), and Bismuth Telluride (Bi2Te3), while the perfect absorption wavelength region of absorbers with nanocones made of noble metals (Au, Ag) is 300 nm to around 650 nm, which is far narrower than the solar spectrum. In addition, geometric parameters of the ...
A new perfect metamaterial absorber (PMA) with high fractional bandwidth (FBW) is examined and verif...
In this study, a novel metamaterial absorber (MA) is designed and numerically demonstrated for solar...
The high-index all-dielectric nanoantenna system is a platform recently used for multiple applicatio...
Solar energy is an essential renewable energy source among all the other renewable energy sources. I...
Integrating devices with nanostructures is considered a promising strategy to improve the performanc...
In recent years, research on solar absorbers provides a significant breakthrough to solve the energy...
The current state of energy is characterized by complex challenges in production processes and envir...
Abstract We propose and theoretically investigate an efficient solar light absorber based on a multi...
We propose a novel solar selective absorber design based on transverse localized surface plasmon res...
We evaluate the potential of inserting metallic, metal dielectric core shell, and fully dielectric n...
ABSTRACT: We demonstrate a broadband, polarization independent, omnidirectional absorber based on a ...
The efficient control of optical light at the nanoscale level attracts marvelous applications, inclu...
A new metamaterial absorber is designed and characterized numerically for the harvesting of solar en...
Plasmonic is an emerging technology used to increase the performance of thin-film devices via light-...
In this paper, we numerically demonstrated a simple metamaterial for wide-angle and polarization-ins...
A new perfect metamaterial absorber (PMA) with high fractional bandwidth (FBW) is examined and verif...
In this study, a novel metamaterial absorber (MA) is designed and numerically demonstrated for solar...
The high-index all-dielectric nanoantenna system is a platform recently used for multiple applicatio...
Solar energy is an essential renewable energy source among all the other renewable energy sources. I...
Integrating devices with nanostructures is considered a promising strategy to improve the performanc...
In recent years, research on solar absorbers provides a significant breakthrough to solve the energy...
The current state of energy is characterized by complex challenges in production processes and envir...
Abstract We propose and theoretically investigate an efficient solar light absorber based on a multi...
We propose a novel solar selective absorber design based on transverse localized surface plasmon res...
We evaluate the potential of inserting metallic, metal dielectric core shell, and fully dielectric n...
ABSTRACT: We demonstrate a broadband, polarization independent, omnidirectional absorber based on a ...
The efficient control of optical light at the nanoscale level attracts marvelous applications, inclu...
A new metamaterial absorber is designed and characterized numerically for the harvesting of solar en...
Plasmonic is an emerging technology used to increase the performance of thin-film devices via light-...
In this paper, we numerically demonstrated a simple metamaterial for wide-angle and polarization-ins...
A new perfect metamaterial absorber (PMA) with high fractional bandwidth (FBW) is examined and verif...
In this study, a novel metamaterial absorber (MA) is designed and numerically demonstrated for solar...
The high-index all-dielectric nanoantenna system is a platform recently used for multiple applicatio...