Using flexible conducting polymers and novel circuitry patterns printed on paper, researchers have demonstrated proof-of-concept wearable thermoelectric generators that can harvest energy from body ...

Thermoelectric generators (TEGs) use heat—or more accurately, temperature differences—and the well-known Seebeck effect to generate electricity. Their applications range from energy harvesting of ...

Scientists in Japan have developed a new organic device that can harvest energy from heat. Unlike other thermoelectric generators, this one works at room temperature without a heat gradient. Usually, ...

Thermoelectric coolers (TECs) are versatile temperature-control devices. They’re best thought of as solid-state heat pumps in which the direction and rate of heat flow can be manipulated by ...

Researchers have introduced a new material that offers more efficient conversion of waste heat into clean electricity. Developed by researchers from Queensland University of Technology (QUT), the new ...

If you want to convert heat into electrical power, it’s hard to find a simpler method than a thermoelectric generator. The Seebeck effect means that the junction of two dissimilar conductors will ...

Optimized for standard circuitry and power requirements, the OptoCooler HV14 RoHS-compliant, high-voltage and high-heat pumping thermoelectric cooler module specifically targets the optoelectronics ...

Using flexible conducting polymers and novel circuitry patterns printed on paper, researchers have demonstrated proof-of-concept wearable thermoelectric generators that can harvest energy from body ...