About Prospects of magnetoelectric power storage
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6 FAQs about [Prospects of magnetoelectric power storage]
Can magnetoelectric multiferroics improve electronic devices?
Magnetoelectric multiferroics, where magnetic properties are manipulated by electric field and vice versa, could lead to improved electronic devices. Here, advances in materials, characterisation and modelling, and usage in applications are reviewed.
Can magnetoelectric and multiferroic materials improve energy-delay performance of spin-based devices?
Instead, the use of magnetoelectric and multiferroic materials has been proposed as a pathway to markedly improve energy-delay performance of spin-based devices.
What are magnetoelectric materials?
In connection with multiferroism, a broad category of materials namely magnetoelectrics allow the electric control on magnetization or vice-versa are explored extensively. Even though, the research in the field of MFs and magnetoelectric (ME) materials can be traced back to revolutionary research in the early 1950s.
Can strain-mediated magnetoelectric coupling improve information storage for low-power spintronic devices?
This article reports the efficient modulation of the magnetic tunnel junction through strain-mediated magnetoelectric coupling and realizes a giant, reversible and nonvolatile electric-field manipulation of magnetoresistance, offering significant fundamental insight into information storage towards low-power spintronic devices.
Can magnetoelectric multiferroic materials be manipulated by an electric field?
You have full access to this article via your institution. The manipulation of magnetic properties by an electric field in magnetoelectric multiferroic materials has driven significant research activity, with the goal of realizing their transformative technological potential.
Can magnetic field induced electrochemical energy storage improve supercapacitor performance?
Recently, magnetic field induced electrochemical energy storage performance has opened up new possibilities for supercapacitor research. The noncontact energy provided by the magnetic field can affect the electrochemical performance of a supercapacitor by inducing changes in the electrode and electrolyte at the molecular level.
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