Graphene oxide based magnetic nanocomposites and its quantum dots for bioimaging wound healing applications

Abstract

The emergence of biocompatible nanomaterials has opened up a new frontier in the detection, treatment, and prevention of human diseases. Out of many such nanomaterials, Graphene was one of the world s thinnest, strongest, and stiffest materials, as well as being an exceptional conductor of heat and electricity. It plays a significant role to overcome the existing challenges and creating a technological breakthrough for high-tech applications. Agricultural and biomass waste from Industries served as a richest carbon source for an eco-friendly and low-cost synthesis of high-quality Graphene oxide (GO), reduced Graphene oxide (rGO), Graphene Iron Oxide nanocomposites (GION) and Fabricated Graphene Iron Oxide Quantum Dot (FQD) etc. Fibrous materials with high carbon content, such as cellulose, hemicellulose, and lignin, assist the efficient use of agricultural wastes to improve solid waste management and reduce global pollution problems. The study focus is on an eco-friendly synthesis of Graphene oxide and the composite formulations of GION and FQD, which are biocompatible, biodegradable, and have a variety of biological applications. Chapter 1 discusses the introduction to an eco-friendly nanomaterial and nanocomposites, their history of emergence, various routes of synthesis, classifications of Nanoparticles, etc. A detailed explanation of Graphene and its allotropic forms with different methods of synthesis and graphene-based other composite formulations was mentioned to develop potential toxicity-free green material for therapeutic applications. newline