Insights Focused on Hybrid Graphene Modifications within the Nanoscale for Opto-Electronics Perspectives

Abstract

This brief letter presents this Special Issue nominated as “Hybrid Graphene-based Materials: Synthesis, Characterization, Properties, and Applications”. This intends to show and discuss the main properties of Graphene and its derivatives; and how it could be synthesized, modified and tuned for Optics, Electro-Optics, Electronics, and Quantum characteristics. In this context, the synthesis and chemical modifications were highlighted for the design of Hybrid composites, platforms. In this context, it was afforded to varied developments within Multidisciplinary fields for high-impact Research and applications. In this manner, Graphene joined to other organic and inorganic materials showed different properties compared to free and non-modified Graphene. This fact, permitted to tune of electronic properties through materials that were transferred to applications. For example, the high electronic density could generate pseudo-electromagnetic fields and other phenomena such as luminescence, electronic conductions, and specific Quantum states that could be joined to optical active materials. Thus, it was afforded to the discussion and introduction in this other Research field as well. In this manner, it was intended to afford an overview of the high-impact Research and potential perspectives of Hybrid Graphene materials.