Cellular Uptake and Magneto-Hyperthermia Induced Cytotoxicity using Photoluminescent Fe3O4 Nanoparticle/Si Quantum Dot Hybrids

Abstract: <p>The design and fabrication of Si-based multi-functional nanomaterials for biological and biomedical applications is an active area of research. The potential benefits of using Si-based nanomaterials are not only due to their size/surface-dependent optical responses but also the high biocompatibility and low-toxicity of silicon itself. Combining these characteristics with the magnetic properties of Fe₃O₄ nanoparticles (NPs) multiplies the options available … Show more

“…Magnetic nanoparticles (MNPs) pay attention because of their unique properties, such as being superparamagnetic [3][4][5]. biocompatible and biodegradable [6], and expected to be non-toxic to humans [7,8]. Furthermore, unlike bulk iron, SPIONs do not have remnant magnetization in the absence of the external magnetic field; therefore, precise remote control over their action is possible makes them also advantageous as a module of the advanced drug delivery systems.…”

Cytotoxicity and Hemostatic One Step Green Synthesis of Iron Nanoparticles Coated with Green Tea for Biomedical Application

“…Magnetic nanoparticles (MNPs) pay attention because of their unique properties, such as being superparamagnetic [3][4][5]. biocompatible and biodegradable [6], and expected to be non-toxic to humans [7,8]. Furthermore, unlike bulk iron, SPIONs do not have remnant magnetization in the absence of the external magnetic field; therefore, precise remote control over their action is possible makes them also advantageous as a module of the advanced drug delivery systems.…”

Cytotoxicity and Hemostatic One Step Green Synthesis of Iron Nanoparticles Coated with Green Tea for Biomedical Application