© 2014 OSA.In this letter, we proposed and numerically demonstrated a novel plasmonic nanopore platform for single-molecule detection. Bowtie nanoantennas and photonic cavities were studied to obtain Raman enhancement at single-molecule level on the solid-state nanopore platform
Plasmonic solid-state nanopores with tunable hole diameters can be prepared via a photocatalytic eff...
Plasmonic nanostructures are widely used for various sensing applications by monitoring changes in r...
DNA and amino acids are important biomolecules in living organisms. Probing such biomolecules with s...
In this letter, we proposed and numerically demonstrated a novel plasmonic nanopore platform for sin...
Solid-state nanopore-based sensors are promising platforms for next-generation sequencing technologi...
Grabbing a single molecule and inspecting its contents is far from easy. Apart from the small size o...
Thesis (Ph.D.)--Boston UniversitySince the first report of single-molecule detection using the biolo...
In an emerging field of nanopore-based biosensors, DNA and other biomolecules are detected at the si...
Nanopore sensors embedded within thin dielectric membranes have bee a gaining significant interest d...
Plasmon resonance biosensors provide ultimate sensitivity at the single-molecule level. This sensiti...
Plasmonics is the discipline that investigates the use of collective oscillations of conductive elec...
Plasmonic nanocavities are able to engineer and confine electromagnetic fields into subwavelength vo...
Plasmonic nanocavities are able to engineer and confine electromagnetic fields to subwavelength volu...
Solid-state nanopore-based sensors are promising platforms for next-generation sequencing technologi...
The aim of this thesis is to design plasmonic nano-gaps capable of detecting materials down to suffi...
Plasmonic solid-state nanopores with tunable hole diameters can be prepared via a photocatalytic eff...
Plasmonic nanostructures are widely used for various sensing applications by monitoring changes in r...
DNA and amino acids are important biomolecules in living organisms. Probing such biomolecules with s...
In this letter, we proposed and numerically demonstrated a novel plasmonic nanopore platform for sin...
Solid-state nanopore-based sensors are promising platforms for next-generation sequencing technologi...
Grabbing a single molecule and inspecting its contents is far from easy. Apart from the small size o...
Thesis (Ph.D.)--Boston UniversitySince the first report of single-molecule detection using the biolo...
In an emerging field of nanopore-based biosensors, DNA and other biomolecules are detected at the si...
Nanopore sensors embedded within thin dielectric membranes have bee a gaining significant interest d...
Plasmon resonance biosensors provide ultimate sensitivity at the single-molecule level. This sensiti...
Plasmonics is the discipline that investigates the use of collective oscillations of conductive elec...
Plasmonic nanocavities are able to engineer and confine electromagnetic fields into subwavelength vo...
Plasmonic nanocavities are able to engineer and confine electromagnetic fields to subwavelength volu...
Solid-state nanopore-based sensors are promising platforms for next-generation sequencing technologi...
The aim of this thesis is to design plasmonic nano-gaps capable of detecting materials down to suffi...
Plasmonic solid-state nanopores with tunable hole diameters can be prepared via a photocatalytic eff...
Plasmonic nanostructures are widely used for various sensing applications by monitoring changes in r...
DNA and amino acids are important biomolecules in living organisms. Probing such biomolecules with s...
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