In summary, the magnetic field can non-destructively monitor the status of batteries such as the current distribution, health, changes in temperature, material purity, conductivity, phase changes and so on. This unique technology provides an avenue for the rapid and reliable assessment of the state of a battery during its entire life cycle.
We hope that this review will serve as an opening rather than a concluding remark, and we believe that the application of magnetic fields will break through some of the current bottlenecks in the field of energy storage, and ultimately achieve lithium-based batteries with excellent electrochemical performance.
The magnetic characterization of active materials is thus essential in the context of lithium-ion batteries as some transition metals shows magnetic exchange strengths for redox processes which provides pathway to improve the charge-discharge behavior. The interactions of charged particles within electric and MFs are governed by the MHD effect.
The majority of research indicates that a magnetic field is beneficial to the whole system and the electrochemical performance of lithium-based batteries, being advantageous to the cathode, anode, and separators. The main mechanisms involved include magnetic force, the magnetization effect, a magnetohydrodynamic effect, spin effect, and NMR effect.
Magnetic manipulation and tuning of the magnetic susceptibility of active materials, by a MF, will control the electrolyte properties, mass transportation, electrode kinetics, and deposit morphology. These concepts can solve some existing drawbacks,not only in LIBs but also in electrochemical batteries in general.
The magnetic susceptibility of the active material of LIBs is an important property to explore once the magnetic properties of the transition metal redox processes begin to be correlated to the electrical control (voltage) of LIBs, influencing battery performance.
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