Despite ongoing research and development on various types of bulk and thin-film thermoelectric materials and devices, owing to the advantages of thermoelectric technology, the chronic issue of ...

Researchers at Pohang University of Science and Technology, the George Washington University and other institutes recently ...

Most fuel in gas-powered vehicles is wasted as heat, but a new study reveals a way to convert this lost energy into ...

For optimal use, thermoelectric (TE) materials and modules must be adapted to the requirements of the system where they are integrated. Depending on the temperature range of the application, a ...

Incorporating trace amounts of Cu atoms into n-type Bi2(Te, Se)3 simultaneously realizes lattice plainification and band ...

Combustion engines, the engines in gas-powered cars, only use a quarter of the fuel’s potential energy while the rest is lost ...

A project at Penn State University and China's Hebei University of Technology has now developed a wearable sensor able to ...

A team of researchers has developed a transformative machine learning (ML) approach to streamline the discovery and development of high-performance ionic thermoelectric (i-TE) materials.

The flexible sensor, ideal for use in the human body, uses laser-induced graphene to simultaneously but separately measure ...

Researchers at the University of Houston's Texas Center for Superconductivity have achieved another first in their quest ...