Power management is a primary design constraint in portable medical devices because functional demands continue to grow faster than practical gains in battery capacity. Implantable devices must ...

Researchers have discovered a new candidate, the mixed-semimetal MoSi2, that can be used to develop efficient thermoelectric ...

Waste heat from industrial equipment could be converted more efficiently using a thermoelectric material that generates voltage perpendicular to heat flow.

Thermoelectric devices are promising for capturing and converting waste heat it into useful electricity. Conventional devices ...

Thermoelectric generators built entirely from food-grade hydrogels and vanillin harvest heat from hot meals to power edible ...

Thermoelectric conversion devices offer a promising route for sustainable heat-to-energy conversion. They are particularly attractive for recovering energy from waste heat, such as that produced by ...

MoSi2 demonstrates clear and large transverse thermopower, establishing itself as a promising candidate for developing efficient transverse thermoelectric devices.

A single gold nanoparticle tends to absorb within a narrow band. Much of its strongest response sits in visible wavelengths.

Flexible thermoelectric generators made from screen-printed indium telluride show enhanced performance through co-doping and ...

The Jawaharlal Nehru Centre for Advanced Scientific Research (JNCASR) along with a Bengaluru-based company will be developing advanced thermal materials and thermoelectric devices for improving the ...

Abstract: In recent years, thermoelectric cooling technology has gained significant attention for its applications in localized environmental temperature control. This study integrates thermoelectric ...