Electronic properties and Pseudo-Electromagnetic Fields of Highly Conjugated Carbon Nanostructures

WILLIAM HUTCHINSON; A. GUILLERMO BRACAMONTE

Current Material Science (CMS)

Bentham Science

Año: 2022 vol. 15 p. 204 - 214

2666-1454

In this communication we discuss the particular electronic and quantum properties from graphene and carbon allotropes to highly conjugated carbon chemical structures from recent research. Moreover, the chemical modifications of these types of materials were analyzed against the concept of their inert properties, thus identifying their surfaces could be modified to join different properties, functionalities, and couple electronic effects, among others. Their versatility was shown based on simple chemical reactions in controlled and targeted conditions of synthesis. Variable designs could be tuned from proof of concepts to functional materials for targeted applications. In addition, it was discussed a proof of concept for Electron Transfer (ET) applications to show their electronic properties. Finally, it was analyzed the use from highly conjugated chemical structures to higher hierarchical ordered carbon structures, carbon nanotubes, graphene and carbon allotropes in electron, and opto-responsive metamaterials. Thus, new insights into multi-modal characteristics of materials were discussed.