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 …

Recent advances in neural implantable systems have paved the way for neuroscience and
neurosurgery research and clinical practice. Conventional tethered neural implants use …

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 …

This article presents a thorough analysis and an equivalent circuit model of a wireless power
transfer system utilizing magnetoelectric (ME) effects. Based on two-port theory, explicit …

This paper presents theoretical analysis on fundamental performances of two configurations
of magnetoelectric transducers that are used the most in practice, longitudinal-longitudinal …

The primary objective of this work is to investigate the performance of a hybrid energy
harvesting system consisting of piezoelectric and electromagnetic transducers. We first show …

This work presents the design, modeling and characterization of a chip-sized piezoelectric
receiver for low-frequency, near-field wireless power transmission. Utilizing a laser micro …

This paper presents the design, fabrication and experimental characterization of a chip-
sized wireless power receiver for low-frequency electrodynamic wireless power …

We propose a wireless power transfer system using low-frequency magnetic fields.
Lowfrequency magnetic fields have less effect on the human body and less shielding effect …