Abstract
Nanoparticles have boundless impact on health and life science, and have exceptional sensible features such as biological, chemical, thermal, material, optical, electrical, and physical properties. In recent years graphene nanoparticles have acquired powerful technological and scientific attention with potential applications such as in fabrication of supercapacitors, batteries, solar or fuel cells, miniaturized and biomedical sensors. Graphene is the most putative nanoparticle for fabrication of biomedical sensors for biosensing, bioimaging, and therapeutic usage due to some of its stimulating qualities such as outstanding aqueous processability, functional surface properties, surface-enhanced Raman scattering, cell growth ability, and biocompatibility certainties. The present study highlights the state of art review and potential future prospect of graphene for use as sensors in miniaturized and biomedical sensing devices for bioimaging, biosensing, and diagnostic applications.
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