Introduction: For many years, the controlled delivery of therapeutic compounds has been a
matter of great interest in the field of nanomedicine. Among the wide amount of drug …

The review presents an analysis of the current state of research related to the design,
development, and practical application of methods for biomedical radioelectronics and …

Magnetic hyperthermia (MHT) and photothermal therapy (PTT) are emergent state‐of‐the‐
art modalities for thermal treatment of cancer. While their mechanisms of action have distinct …

Co-precipitation is the most ubiquitous method for forming iron oxide nanoparticles. For a
typical co-precipitation synthesis, the pH of a ferrous and/or ferric ion solution is increased …

The structural, physicochemical, morphological, and magnetic properties of magnetic drug
nanoparticles prepared using polymer, layered double hydroxide (LDHs) and drug as the …

While magnetic nanoparticles offer exciting possibilities for stem cell imaging or tissue
bioengineering, their long-term intracellular fate remains to be fully documented. Besides, it …

Abstract High-quality, 25 nm octahedral-shaped Fe3O4 magnetite nanocrystals are
epitaxially grown on 9 nm Au seed nanoparticles using a modified wet-chemical synthesis …

With advancing developments over the use of magnetic nanoparticles in biomedical
engineering, and more specifically cell-based therapies, the question of their fate and impact …

Magnetic nanoparticles (MNPs) with proper surface functionalization have been extensively
applied as labels for magnetic immunoassays, carriers for controlled drug/gene delivery …

Iron oxide nanoparticle (IONPs) have become a subject of interest in various biomedical
fields due to their magnetism and biocompatibility. They can be utilized as heat mediators in …