One of the new materials that have recently attracted wide attention of researchers are
magnetoelectric (ME) composites. Great interest in these materials is due to their properties …

Over the past four decades, energy microsources based on piezoelectric energy harvesting
have been intensively studied for applications in autonomous sensor systems. The research …

We investigated the magnetoelectric properties of a new laminate composite material based
on y+ 140-cut congruent lithium niobate piezoelectric plates with an antiparallel polarized …

This study reports the creation of a highly sensitive, low-frequency magnetic field sensor
based on a composite multiferroic consisting of a bidomain lithium niobate/metglas laminate …

With the recent thriving of low-power electronic microdevices and sensors, the development
of components capable of scavenging environmental energy has become imperative. In this …

Lithium niobate (LiNbO3) and lithium tantalate (LiTaO3) are among the most important and
most widely used materials of coherent and nonlinear optics, as well as acoustics. The strict …

Non-contact mapping of magnetic fields produced by the human heart muscle requires the
application of arrays of miniature and highly sensitive magnetic field sensors. In this article …

We present a low-frequency sensor for the detection of vibrations, with a sub-nm amplitude,
based on a cantilever made of a single-crystalline lithium niobate (LiNbO3) plate, with a …

We present an investigation into the magnetic sensing performance of magnetoelectric
bilayered metglas/bidomain LiNbO 3 long thin bars operating in a cantilever or free vibrating …

Low-frequency vibration energy harvesting is becoming increasingly important for
environmentally friendly and biomedical applications in order to power various wearable …