Hybrid crystalline Au/Ag@c flakes: the structure and luminescence interconnection: Novel hybrid crystalline nanostructures Au/Ag@c (called flakes) are obtained by original synthetic approach of laser-induced deposition and considered to be unique nanomaterials for optics and photonics

Research output

Abstract

The synthesised flakes are complex multicomponent and multiphase structures. The combination of a material, featuring inherent optical birefringence and nonlinearities, with plasmonic bimetallic Au-Ag nanoclusters, enabling local enhancement of electromagnetic fields, constitutes a very promising hybrid material for the future development of nanooptics and nanophotonics devices. It was conducted the investigation of optical properties by Raman and Luminescence analyses depending on laser wavelength and intensity. Also it was demonstrated that laser-induced modification of the flakes occurs and correlation with the luminescence properties
Original languageEnglish
Number of pages4
Publication statusUnpublished - 25 Nov 2019

Fingerprint

Nanostructured materials
Photonics
Luminescence
Nanostructures
Optics
Crystalline materials
Nanophotonics
Lasers
Nanoclusters
Hybrid materials
Birefringence
Electromagnetic fields
Optical properties
Wavelength

Scopus subject areas

  • Spectroscopy
  • Electronic, Optical and Magnetic Materials
  • Materials Science (miscellaneous)
  • Chemistry (miscellaneous)

Cite this

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abstract = "The synthesised flakes are complex multicomponent and multiphase structures. The combination of a material, featuring inherent optical birefringence and nonlinearities, with plasmonic bimetallic Au-Ag nanoclusters, enabling local enhancement of electromagnetic fields, constitutes a very promising hybrid material for the future development of nanooptics and nanophotonics devices. It was conducted the investigation of optical properties by Raman and Luminescence analyses depending on laser wavelength and intensity. Also it was demonstrated that laser-induced modification of the flakes occurs and correlation with the luminescence properties",
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N2 - The synthesised flakes are complex multicomponent and multiphase structures. The combination of a material, featuring inherent optical birefringence and nonlinearities, with plasmonic bimetallic Au-Ag nanoclusters, enabling local enhancement of electromagnetic fields, constitutes a very promising hybrid material for the future development of nanooptics and nanophotonics devices. It was conducted the investigation of optical properties by Raman and Luminescence analyses depending on laser wavelength and intensity. Also it was demonstrated that laser-induced modification of the flakes occurs and correlation with the luminescence properties

AB - The synthesised flakes are complex multicomponent and multiphase structures. The combination of a material, featuring inherent optical birefringence and nonlinearities, with plasmonic bimetallic Au-Ag nanoclusters, enabling local enhancement of electromagnetic fields, constitutes a very promising hybrid material for the future development of nanooptics and nanophotonics devices. It was conducted the investigation of optical properties by Raman and Luminescence analyses depending on laser wavelength and intensity. Also it was demonstrated that laser-induced modification of the flakes occurs and correlation with the luminescence properties

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BT - Hybrid crystalline Au/Ag@c flakes: the structure and luminescence interconnection

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