Progress in Graphene Oxide Hybrids for Environmental Applications

Graphene-oxide-based metal hybrids (GM) are used for the rapid and efficient reduction removal of toxic adulterants in environment. The exceptionally high specific surface area, versatile chemistry, exceptional customization efficiency graphene oxide nanosheets combined with adaptable chemistry nanoparticles enable formation GM hybrid nanocomposites. However, little is known about architecture nanocomposite engineering, interaction mechanisms, environmental compatibility. This review aims to describe performance oxide–metal pollutants, carbon capture, EMI shielding efficiency, microbial elimination engineered composites anchored particles. We also developed an essential link between material properties nanohybrids their performance, which identified fundamental parameters that influence contaminant capability resistance efficiency. thermodynamic on adsorption radioisotopes, heavy metals, organic dyes was considered. Finally, we comment remaining challenges provide suggestions future developments this field.