Micronanoswarms have attracted extensive attention worldwide due to their great promise in
biomedical applications. The collective behaviors among thousands, or even millions, of tiny …

In recent years, the usage of radio frequency magnetic fields for biomedical applications has
increased exponentially. Several diagnostic and therapeutic methodologies exploit this …

Optimizing the intrinsic properties of magnetic nanoparticles for magnetic hyperthermia is of
considerable concern. In addition, the heating efficiency of the nanoparticles can be …

The physical principles of magnetic hyperthermia are based on the heat generation of
magnetic nanoparticles under the influence of applied magnetic fields of different …

Experiments show that clusters consisting of nano-sized ferromagnetic particles strongly
affect the intensity of heat production during magnetic hyperthermia. In this paper, a …

The paper presents two issues: a new method of generating a rotating magnetic field of high
frequency and describes the influence of the rotating magnetic field high frequency on …

Precise and controllable temperature is required for using magnetic hyperthermia in cancer
therapy. Magnetic nanoparticles typically need to have a Curie temperature of 42–50° C to …

Single-domain magnetic particles have unique and excellent magnetic properties and are
widely used in biomedical applications, but there are many mechanisms for their response …

In this study, a modified Pinto-Espinoza (PE) magnetization model that has a wider range of
applications is proposed based on the conventional magnetization model. This model uses …

The effect of a rotating magnetic field on heat dissipation due to magnetic hyperthermia is
investigated numerically. A robust and validated in-house code based on Langevin …