Magnetoelectric (ME) effect experimentally discovered about 60 years ago remains one of
the promising research fields with the main applications in microelectronics and sensors …

Wireless power transfer (WPT) has received increasing attention primarily as a means of
recharging batteries in the last few decades. More recently, magnetoelectric (ME) structures …

This paper presents the design, implementation, and experimental evaluation of a wireless
biomedical implant platform exploiting the magnetoelectric effect for wireless power and bi …

This paper presents the first wireless and programmable neural stimulator leveraging
magnetoelectric (ME) effects for power and data transfer. Thanks to low tissue absorption …

This article presents experimental validation of a generalized equivalent two-port model for
a magnetoelectric-based wireless power transfer system (WPTS) that utilizes a circular multi …

To maximize the capabilities of minimally invasive implantable bioelectronic devices, we
must deliver large amounts of power to small implants; however, as devices are made …

Electromagnetic radiation can be produced using functional materials such as
magnetoelectric (ME) composites, in which the magnetoelasticity and piezoelasticity of …

We present a general framework for maximizing the power delivered to a load resistance of
a magnetoelectric wireless power transfer system, especially under a volume constraint …

The use of magnetoelectric (ME) devices in the field of wireless power transfer (WPT) is
attractive due to their smaller size and lower operating frequencies compared to traditional …

This paper proposes analytical solutions for the resonant radiation performance of bending-
mode magnetoelectric (ME) antennas. The strain-mediated Converse ME (CME) coupling …