Researchers at the Daegu Gyeongbuk Institute of Science and Technology (DGIST) in South Korea have developed a highly ...

A research team at DGIST has developed a wearable device that harvests electrical energy using only body movements. This ...

The research team developed a new environmentally friendly material which taps into the power of the piezoelectric effect.

This allows the generation of large-scale electrical power relative to the small number of piezoelectric elements that are ...

Piezoelectric actuators offer high-speed response, fine resolution, and low power consumption. Piezoelectric crystals can be used to harvest ambient mechanical energy, such as vibrations or motion, ...

A research team has developed a highly efficient wearable energy harvester that can power electronic devices using only body movements.

Piezoelectric biomaterials are materials that can generate ... with nine nozzles connected to a power supply. Once a ...

Piezoelectric energy harvesters do exist and they can produce usable quantities of power, but to do so they must be distorted slightly, or bent. They are best suited to harvesting energy from ...

Structures such as 3D buckling have been widely used to impart stretchability to devices, Piezoelectric nanogenerators work ...

A team of researchers led by Prof. Jang Kyung-In from the Department of Robotics and Mechatronics Engineering at DGIST has ...

These piezoelectric ceramics are also used in low-power projectors. Bismuth titanates are used in high temperature applications, such as pressure sensors and accelerometers. Bismuth titanate belongs ...