Add to ORKGA number of applications in nanoplasmonics utilize noble metals, gold (Au) and silver (Ag), as the materials of choice. However, these materials suffer from problems of poor thermal and chemical stability with significant dissipative losses under high-temperature conditions. In this regard, semiconductor nanoparticles have attracted attention with their promising characteristics of highly tunable plasmonic resonances, low ohmic losses, and greater thermochemical stability. Here, the size-dependent thermoplasmonic properties of semiconducting silicon and gallium arsenide nanoparticles are investigated to compare them with Au nanoparticles using Mie theory. To this end, experimentally estimated models of dielectric permittivity are employed. ...
The requirements for spatial and temporal manipulation of electromagnetic fields on the nanoscale ha...
This paper reports about a study of the local plasmonic resonance (LSPR) produced by metal nanoparti...
It is known that small dielectric objects can exhibit resonant behavior at certain frequencies for w...
A number of applications in nanoplasmonics utilize noble metals, gold (Au) and silver (Ag), as the m...
Electromagnetically-heated metal nanoparticles can be exploited as efficient heat sources at the nan...
Abstract Realistic representation of the frequency dependence of dielectric function of noble metals...
Plasmonically active materials have the unique ability to use photons to drive a collective multi-el...
Nowadays, we are constantly surrounded by the word ’nano’. We find nanoparticles in food, cosmetics ...
In recent decades, plasmonic nanoparticles have attracted considerable attention due to their abilit...
Temperature (T)-dependent optical response of gold nanoparticle (NP) dimer of radii, 5-60 nm surroun...
Polymer films containing plasmonic nanostructures are of increasing interest for development of resp...
The size reduction of metals, from bulk to nanoparticles, induces significant modifications of their...
Department of Physics, Banwarilal Bhalotia College, Asansol-713 303, West Bengal, India E-mail: devm...
Thermal relaxation dynamics of resonantly excited plasmons is important in optoelectronic, medical, ...
Optically trapped nanoparticles can be used as efficient mobile probes of nanoscopic forces and temp...
The requirements for spatial and temporal manipulation of electromagnetic fields on the nanoscale ha...
This paper reports about a study of the local plasmonic resonance (LSPR) produced by metal nanoparti...
It is known that small dielectric objects can exhibit resonant behavior at certain frequencies for w...
A number of applications in nanoplasmonics utilize noble metals, gold (Au) and silver (Ag), as the m...
Electromagnetically-heated metal nanoparticles can be exploited as efficient heat sources at the nan...
Abstract Realistic representation of the frequency dependence of dielectric function of noble metals...
Plasmonically active materials have the unique ability to use photons to drive a collective multi-el...
Nowadays, we are constantly surrounded by the word ’nano’. We find nanoparticles in food, cosmetics ...
In recent decades, plasmonic nanoparticles have attracted considerable attention due to their abilit...
Temperature (T)-dependent optical response of gold nanoparticle (NP) dimer of radii, 5-60 nm surroun...
Polymer films containing plasmonic nanostructures are of increasing interest for development of resp...
The size reduction of metals, from bulk to nanoparticles, induces significant modifications of their...
Department of Physics, Banwarilal Bhalotia College, Asansol-713 303, West Bengal, India E-mail: devm...
Thermal relaxation dynamics of resonantly excited plasmons is important in optoelectronic, medical, ...
Optically trapped nanoparticles can be used as efficient mobile probes of nanoscopic forces and temp...
The requirements for spatial and temporal manipulation of electromagnetic fields on the nanoscale ha...
This paper reports about a study of the local plasmonic resonance (LSPR) produced by metal nanoparti...
It is known that small dielectric objects can exhibit resonant behavior at certain frequencies for w...