The development of new materials in nanophotonics, defined as the use of multiscale materials to control light-matter interactions, has proven to be the foundation for revolutionary advances in both science and technology. In this thesis, we utilize Ga droplets as a plasmonic metal nanoparticle (NP) as well as a seed for droplet epitaxy of ZB GaN nanostructures, and examine the formation of embedded GaAs:Ga nanocomposites and ZB GaN nanostructures, and their structural and optical properties. Metallic nanostructures generate surface plasmons an incident electromagnetic wave, leading to enhancements in absorption and emission. However, materials research and device fabrication have focused nearly exclusively on 2-dimensional dispersions of A...
Filled tetrahedral semiconductors comprised of elements from group I, II, and V of the periodic tabl...
Two-dimensional (2D) materials with single or a few atomic layers, such as graphene, hexagonal boron...
While conventional Single Particle Tracking (SPT) techniques acquire 2D or 3D trajectories of partic...
This dissertation focuses on developing novel and efficient fabrication methodology for periodic nan...
The development of nanotechnology has provided a variety of noble metal nanostructures with unique o...
Capacitive polymer-matrix composites (PMCs) were fabricated with various nanofillers, defined as nan...
Gold nanoparticles, particularly those with an anisotropic shape, have become a popular optical prob...
Sub-wavelength resonant structures open the path for fine controlling the near-field at the nanoscal...
Since the advent of the Information Age, there has been an ever growing demand to continually shrink...
Large-area, uniformly oriented plasmonic arrays were fabricated using nanoimprint lithography (NIL)....
Recent advances in fabrication techniques have led to the successful nano-engineering of semiconduct...
Surface plasmon resonance (SPR) has achieved widespread recognition as a sensitive, label-free, and ...
We present three different nano-resonant structures (nanoposts, nanoholes etc.) fabricated on either...
The time varying electric field of electromagnetic (EM) radiation causes oscillation of conduction e...
Plasmonic tweezers and optical tweezers are two techniques for trapping and manipulating particles. ...
Filled tetrahedral semiconductors comprised of elements from group I, II, and V of the periodic tabl...
Two-dimensional (2D) materials with single or a few atomic layers, such as graphene, hexagonal boron...
While conventional Single Particle Tracking (SPT) techniques acquire 2D or 3D trajectories of partic...
This dissertation focuses on developing novel and efficient fabrication methodology for periodic nan...
The development of nanotechnology has provided a variety of noble metal nanostructures with unique o...
Capacitive polymer-matrix composites (PMCs) were fabricated with various nanofillers, defined as nan...
Gold nanoparticles, particularly those with an anisotropic shape, have become a popular optical prob...
Sub-wavelength resonant structures open the path for fine controlling the near-field at the nanoscal...
Since the advent of the Information Age, there has been an ever growing demand to continually shrink...
Large-area, uniformly oriented plasmonic arrays were fabricated using nanoimprint lithography (NIL)....
Recent advances in fabrication techniques have led to the successful nano-engineering of semiconduct...
Surface plasmon resonance (SPR) has achieved widespread recognition as a sensitive, label-free, and ...
We present three different nano-resonant structures (nanoposts, nanoholes etc.) fabricated on either...
The time varying electric field of electromagnetic (EM) radiation causes oscillation of conduction e...
Plasmonic tweezers and optical tweezers are two techniques for trapping and manipulating particles. ...
Filled tetrahedral semiconductors comprised of elements from group I, II, and V of the periodic tabl...
Two-dimensional (2D) materials with single or a few atomic layers, such as graphene, hexagonal boron...
While conventional Single Particle Tracking (SPT) techniques acquire 2D or 3D trajectories of partic...