Abstract
Researchers are constantly seeking new and better ways to improve existing technology solutions. Better technology opens more doors for scientific research, and as the lab equipment improves, what we can analyze or manipulate also increases, and that cycle continues. Magnetic nanoparticles (MNPs) are currently receiving a lot of attention in the ongoing hunt for novel techniques for treating viruses and diseases that are continually evolving and mutating. These tiny particles differ from their bulky parent materials in that their typical size spans from 1 to 100 nm, making them ideal for a wide range of applications. Due to their unique features, MNPs offer a wide range of potential applications in numerous sectors, including the biomedical field, environment, catalysis, and agriculture. Because of the continuous interaction between humans and disease, particular focus is given to MNPs-based systems and their applications in biomedical fields. Due to their small size, magnetic nanoparticles have to potential to be manipulated and used only at specific sites and at a small scale which may reduce the need for invasive surgery and so treatment and recovery can also be potentially reduced.
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