Modified organized systems by incorporation of Carbon allotropes and derivatives for electron shuttle, ET, FRET and Quantum Biology coupling

ENRIQUE G. QUISMONDO ; A. GUILLERMO BRACAMONTE

Recent Progress in Materials

LIDSEN Publishing Inc., Open Access Publisher (USA).

Año: 2024 vol. 6 p. 1 - 19

This communication was brief to show how high conjugated carbon-based structures and carbon allotropes could participate as electron shuttles, semiconductors, quantum emitters, and Optoelectronic processors within confined nanostructured organized systems. In particular, it was focused on nanoassemblies such as vesicles, micelles, and lipidic nanoparticles and incorporated insights from other types of nanomaterials that could afford to develop new organized systems. In these cases, the term organized system was used for all types of molecular assembly and supramolecular systems that formed structures within the nanoscale. In this manner, the incorporation of 0pto-electronic materials permitted the development of critical photo-physical phenomena with high impact and perspectives within technology and life sciences. Thus, it was led to discuss the participation of carbon-based chemical structures incorporated in different confined molecular media to develop i) Electron Transfer (ET) processes, ii) Reaction Electron Transfers (RET), iii) catalysis, iv) quantum emissions, v) Fluorescence Resonance Energy Transfer (FRET); vi) non-classical Light; and vii) Nano-Optics. Therefore, it was intended to present the most important physical and chemical phenomena where they could participate as functional high electronic conjugated chemical structures highlighting carbon allotropes.