Researchers fom South Korea’s Daegu Gyeongbuk Institute of Science and Technology have developed an extremely efficient ...

A new electrically active transplantable material that can help to regrow cells in the brain and spinal cord could redefine ...

Researchers at Bath University have developed a new piezoelectric biomaterial to help treat brain and spinal injuries ...

Korean researchers have developed a groundbreaking energy harvesting device that converts body movements into electricity.

Such a structure, consisting essentially of apatite crystals embedded in an organic matrix, might be expected to exhibit piezoelectric properties, as in the case of many other multicrystalline ...

This simple STM setup utilises a piezoelectric actuator constructed by deliberately cutting a piezo speaker into four quadrants. With individual drive wires attached to the four quadrants.

Piezoelectric nanogenerators offer several advantages over conventional energy harvesting technologies. Their nanoscale dimensions allow for high sensitivity, enabling the harvesting of small-scale ...

In order to enable locomotion in multiple shape configurations, we designed a novel body architecture comprising of modular, actuated leg mechanisms. Overall, CLARI has eight independently actuated ...

but most of them use organic or composite-based piezoelectric materials, which have low energy efficiency. This made it difficult to harvest enough power from body movements, limiting their use as ...

A "groundbreaking" new material invented by experts at the University of Bath could help patients with Alzheimer's and ...

(Nanowerk News) DGIST announced that a team led by Prof. Jang Kyung-In from the Department of Robotics and Mechatronics Engineering has developed a three-dimensional stretchable piezoelectric energy ...