ABSTRACT
Magnetic nanomaterials have gained tremendous attention for their various biomedical applications including their function as biosensors, medical diagnostic agents, therapeutic agents, and for clinically relevant applications which include imaging-guided therapy, magnetic hyperthermia, targeted drug and gene delivery systems, manipulation of cellular functions, and so on. They exhibit size-dependent magnetic properties which are tunable that may be manipulated for plenty distinct magnetically controlled applications. Various preparation techniques have been explored to synthesize magnetic nanomaterials with desired properties.
