Design of new High Energy near Field Nanophotonic materials for far Field conduction, emissions and non-classical light tuning

A. GUILLERMO BRACAMONTE

Advances in Nanocomposite Materials for Environmental and Energy Harvesting Applications

Springer Nature

Año: 2022; p. 1 - 119

The aim of this Review of Literature was to discuss and show from the basis of different physics and chemical phenomena to Advanced Research below and beyond of the Nanoscale for Nano-; and Micro-devices design with multiple applications where the Energy signals of different nature were involucrated and transduced. In order to accomplish that it was showed and discussed different properties of Organic, Inorganic, and Hybrids Nanomaterials related with Energy Transfer (ET) for different applications from Nano-electronics to switchable Optical, Plasmonics, and Electro activated phenomena as Electromagnetism, Conductivity, Luminescence, Chemiluminescence and Enhanced properties. In order to do that, it was discussed different tuneable phenomena as Plasmonics (P) within the near field accompanied with applications in the Far field, as Plasmonic Resonators, Enhanced Plasmonics (EP) applied for Metal Enhanced Fluorescence (MEF), Fluorescence Resonance Energy Transfer (FRET); from where it was transduced and enhanced different types of signals . In addition it was discussed how these phenomena were tuned based on different Nanoplatforms as metallic Core-shell nanoparticles and Nano-cages, Organic Nanocomposites as Supramolecular nanoparticles, polymeric nanoparticles, and organized systems as micelles and vesicles. All the mentioned Nanoarchitectures depending of their compositions permitted variable properties within the near Field and Far filed as Enhanced Luminescence, Energy Transfers, Energy conductions and storage from nm and micrometer to higher lengths. Then, it was discussed different applications; from the fabrication of Lab.-on single particles and Multi-functional Nanostructured surfaces, Photonic surfaces for Nanophotonics to Biophotonics applications; and Nano-circuits for Micro-device fabrications. Moreover, different experimental approaches and Set-Ups for different Research studies related with all the mentioned fields were showed and discussed as well; as for example Optical Fiber modifications, silica and organic waveguides, and In Flow methodologies from Nanofluidics to Microfluidics coupled to different Optical detections.