Active optical metasurfaces: comprehensive review on physics, mechanisms, and prospective applications
Optical metasurfaces with subwavelength thickness hold considerable promise for future
advances in fundamental optics and novel optical applications due to their unprecedented …
advances in fundamental optics and novel optical applications due to their unprecedented …
Zirconium nitride: A viable candidate for photonics and plasmonics?
P Patsalas - Thin Solid Films, 2019 - Elsevier
Recently, transition metal nitrides received attention as potential alternative materials for
plasmonics due to their high electron conductivity and mobility, high melting point, chemical …
plasmonics due to their high electron conductivity and mobility, high melting point, chemical …
Plasmonic high-entropy carbides
Discovering multifunctional materials with tunable plasmonic properties, capable of
surviving harsh environments is critical for advanced optical and telecommunication …
surviving harsh environments is critical for advanced optical and telecommunication …
Growth technique–induced highly C-axis-oriented ZnO: Mn, Zno: Fe and ZnO: Co thin films: a comparison of nanostructure, surface morphology, optical band gap, and …
In this study, highly c-axis-oriented ZnO: TM (TM= Co, Fe, and Mn) thin films doped with
different doping levels (x= 0–10 at%) of TM were grown by chemical (sol-gel) and physical …
different doping levels (x= 0–10 at%) of TM were grown by chemical (sol-gel) and physical …
Thickness-dependent drude plasma frequency in transdimensional plasmonic TiN
Plasmonic transdimensional materials (TDMs), which are atomically thin metals of precisely
controlled thickness, are expected to exhibit large tailorability and dynamic tunability of their …
controlled thickness, are expected to exhibit large tailorability and dynamic tunability of their …
Highly plasmonic titanium nitride by room-temperature sputtering
CC Chang, J Nogan, ZP Yang, WJM Kort-Kamp… - Scientific reports, 2019 - nature.com
Titanium nitride (TiN) has recently emerged as an attractive alternative material for
plasmonics. However, the typical high-temperature deposition of plasmonic TiN using either …
plasmonics. However, the typical high-temperature deposition of plasmonic TiN using either …
Large area single crystal gold of single nanometer thickness for nanophotonics
Two-dimensional single crystal metals, in which the behavior of highly confined optical
modes is intertwined with quantum phenomena, are highly sought after for next-generation …
modes is intertwined with quantum phenomena, are highly sought after for next-generation …
Electron confinement–induced plasmonic breakdown in metals
Plasmon resonance represents the collective oscillation of free electron gas density and
enables enhanced light-matter interactions in nanoscale dimensions. Traditionally, the …
enables enhanced light-matter interactions in nanoscale dimensions. Traditionally, the …
Preparation and characterization of a high-efficiency photoelectric detector composed of hexagonal Al2O3/TiO2/TiN/Au nanoporous array
The light sensitivity of a novel TiO 2/TiN-nanotubes-based photodetector is improved by
coating it with Au nanoparticles. Using a porous aluminum oxide template (PAOT), TiO 2/TiN …
coating it with Au nanoparticles. Using a porous aluminum oxide template (PAOT), TiO 2/TiN …
Epitaxial aluminum surface-enhanced Raman spectroscopy substrates for large-scale 2D material characterization
Surface-enhanced Raman spectroscopy (SERS) is an ultrasensitive technique to identify
vibrational fingerprints of trace analytes. However, present SERS techniques suffer from the …
vibrational fingerprints of trace analytes. However, present SERS techniques suffer from the …