Flexible thermoelectric devices, or F-TEDs, can convert thermal energy into electric power. The problem is that F-TEDs weren’t actually flexible enough to comfortably wear or efficient enough to power ...

Mg3Sb2 is a thermoelectric compound composed of cheap and abundant elements. NIMS has successfully improved the ...

A research team from NIMS and UTokyo has proposed and demonstrated that the transverse magneto-thermoelectric conversion in ...

Sensor-equipped wearables like smartwatches, fitness bands, rings, and even some internet connected clothing have lurched ...

Supported by First Tellurium’s advanced materials, PyroDelta has created thermoelectric technology that has been recognized by the National Science Foundation and introduces a new way to generate ...

Samsung just announced new hybrid cooling tech coming to its refrigerators in 2025. They’ll use a traditional compressor ...

The thermoelectric effect, or Seebeck effect, refers to the direct conversion of a temperature difference between two electrical conductors or semiconductors into an electrical voltage. When the sides ...

Australian researchers have engineered an ultra-thin, flexible film capable of harnessing body heat to power wearable devices ...

Stanford University researchers invented solar panels that can produce electricity at night by taking advantage of the ...

A research team has developed a machine learning-based design of experiments (DOE) method that efficiently optimizes the ...

Fluctuations can slow chemical processes, hence compromising results. A Peltier cooling system addresses stability through ...