Hybrid Nanoplatforms and Silica Nano-Hole Particles Intended for Enhanced Energy Modes: Light-Scattering Studies Toward Lasers Developments

Abstract

In this short review, it was communicated about the design and synthesis of optical active nanoplatforms for light scattering studies
highlighting holed nanoarchitectures as main sources of potential additional resonances and enhanced phenomena. In this regard, the nanoplatforms were based on varied materials such as silicon compounds, silica, modified organosilanes, noble metals, and organic materials as well; such molecular and polymeric spacers, chromophores, etc. Thus, it was discussed how it could be recorded enhanced light-scattering signaling from hybrid nanoplatforms and nano-hole particles; from where it was produced constructive wavelengths with a consequent amplification. In this context, it was afforded to the discussion of examples of laser light-scattering properties and optical approaches already developed. In addition, it was showed new developments within nano-optics to be considered for further studies and applications. And, in this direction, it was considered the study from single nanoplatforms toward higher sized modified surfaces and 3D substrates. In this manner, it was leaded to the design of nano-optical resonators as well as nano-arrays resonators. Thus, it was evaluated varied materials to incorporate and evaluate the next generation of nano-optical platforms by controlling nano-chemistry and beyond for targeted photo-physics. The variable materials showed differences between varied modes of resonances and expected performances.

Received: 4 December 2023 | Revised: 18 January 2024 | Accepted: 28 February 2024

Conflicts of Interest

The author declares that he has no conflicts of interest to this work.

Data Availability Statement

The data that support the findings of this study are openly available and it could be provided by the corresponding author.