Energy storage magnetic materials alliance

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.

What are the underlying mechanisms of magnetic fields in electrochemical energy storage?

The underlying mechanisms of magnetic fields in Electrochemical Energy Storage (EES) are discussed. Magnetic field induced structural and morphological changes during fabrication of electrode materials are discussed. Various parameters governing the electrochemical performance of EES devices under external magnetic field are studied.

How does a magnetic field affect energy storage performance?

The magnetic field influenced the synthesis of magnetic electrode materials, fabrication of electrodes, and electrochemical performance of these devices are compiled in different sections. The underlying mechanism behind the energy storage performance of these devices under a magnetic field is comprehensively discussed with suitable examples.

What are the challenges in magnetic field-related energy storage research?

However, there are still some challenges in magnetic field-related energy storage research that need to be addressed. For example, a magnetic field helps in reducing internal resistance by inducing substantial changes at the molecular level across the electrode-electrolyte interface.

What are energy storage materials?

Energy Storage Materials is an international multidisciplinary journal dedicated to materials and their devices for advanced energy storage. It covers relevant energy conversion topics such as metal-O2 batteries and publishes comprehensive research.

Can magnetic field as Non-Contact Energy improve electrochemical performance of energy storage devices?

To further improve the efficiency, energy, and power capacity of these devices, scalable and effective approaches providing end-to-end solutions are most desirable. As evidenced by several reports, magnetic field as non-contact energy has emerged as a powerful tool to boost the electrochemical performance of energy storage devices.