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 afforde… Show more

“…This modification of quantum states could be afforded by coupling electronic densities, non-classical light, luminescence, and joining varied Optoelectronic matter constitutions (Figure 8) [104]. This approach to the study of Optical-active matter is closely related to the generation of Metamaterial Engineering [105]. In this context, potential enhanced developments exploiting not only Quantum emissions and highlighting Pseudo-electromagnetic field interactions produced by Carbon-based materials with their close surrounding could be tuned [106].…”

Quantum Semiconductors Based on Carbon Materials for Nanophotonics and Photonics Applications by Electron Shuttle and Near Field Phenomena

“…This modification of quantum states could be afforded by coupling electronic densities, non-classical light, luminescence, and joining varied Optoelectronic matter constitutions (Figure 8) [104]. This approach to the study of Optical-active matter is closely related to the generation of Metamaterial Engineering [105]. In this context, potential enhanced developments exploiting not only Quantum emissions and highlighting Pseudo-electromagnetic field interactions produced by Carbon-based materials with their close surrounding could be tuned [106].…”

Quantum Semiconductors Based on Carbon Materials for Nanophotonics and Photonics Applications by Electron Shuttle and Near Field Phenomena

Graphene quantum dots—Nascent adsorbent nanomaterials for water treatment

Graphene quantum dots in high performance nanocomposites—design to phantastic progressions