Characteristics of magnetic materials for energy storage inverters

What are the applications of magnetic materials?

Besides, these magnetic materials find their applications in many areas such as recording media, data storage, electrochemical storage, thermal energy storage, etc. In addition, they are also used in medical diagnostics, drug targeting, innovative cancer therapies, magnetic resonance imaging, etc.

How can magnetic materials contribute to the conversion of electrical energy?

Magnetic materials can contribute to this goal in multiple ways. 1 To cite a few examples, the conversion of electrical energy into mechanical work and vice versa is done using electric motors and generators, respectively, which imply the use of hard and soft magnetic materials.

What are the applications of magnetic nanoparticles?

The magnetic nanoparticles have gained considerable attention because they exhibit superior magnetic properties compared with bulk materials. Besides, these magnetic materials find their applications in many areas such as recording media, data storage, electrochemical storage, thermal energy storage, etc.

Are magnetic nanoparticles useful for electrochemical energy storage applications?

Magnetic Nanoparticles are found interesting for the electrochemical energy storage applications due to the progress made on the magnetic field dependent enhancement of specific capacitance (Zhu et al. 2013; Wei et al. 2018; Haldar et al. 2018; Zhang et al. 2013; Pal et al. 2018).

Can soft magnetic materials be improved?

The third article presents an application in which the improvement of soft magnetic materials would have a significant impact: high-power, high-frequency power converters.

How does magnetic core size affect eddy current loss?

With the increase of the magnetic core size, the eddy current path induced by the excitation field in the magnetic core increases, and the eddy current intensity, eddy current loss Pe and the proportion in the total magnetic loss Pe/Pc also increase.