Abstract:
It is a challenging task to work with composite of hybrid nanomaterials without losing
their unique properties. It is a difficult task to get the composites to work together.
Researchers aim to find the best ways to mix them while keeping their individual
properties intact. Physical parameters like size and shape play efficient role in the
synthesis of hybrid nanomaterials. Controlling the composition and structure to tailor
properties for specific applications while maintaining cost-effectiveness and
sustainability is also a significant concern in this field. Imagine creating tiny superhero
materials at the tiniest scale possible. These superhero materials named hybrid
nanomaterials made by mixing different ultra-small particles like metal nitrates,
graphene oxide (GO), and reduced graphene oxide (R-GO) and synthesized by a
modified hummer’s method. Characterizations like XRD, CV, and UV-visible and
RMAN spectroscopy of synthesized hybrid nanomaterials was carried out to analyze
their application in the fields of energy and environment. Hybrid nanomaterials based
on graphene oxide and metal nanoparticles efficiently purify water by removing
contaminants. These tailored materials, with their modified properties like high surface
area and selective sensing capabilities, play an important role in tackling challenges
related to pollution control, environmental monitoring, storage, and clean energy
generation. Ongoing research aims to optimize these hybrid nanomaterials for different
sustainable energy and environmental applications.
