This new organic thermoelectric device can convert room temperature heat, which is abundant in living environments and was previously not considered a possible energy source, into usable electrical ...

Using a semiconductor microfabrication technology, a research team consisting of NIMS, AIST and the University of Tsukuba has succeeded in developing a thermoelectric device consisting of an array of ...

A new thermoelectric device developed by scientists at Penn State University shows great promise in providing cooling solutions for next-generation electronics. With smaller and more powerful ...

(Nanowerk News) Researcher Wei Zeng of the Institute of Chemical Engineering, Guangdong Provincial Academy of Sciences, in collaboration with Associate Professor Dongyu Zhu of Guangdong University of ...

A research team has demonstrated that a simple stack of thermoelectric and magnetic material layers can exhibit a substantially larger transverse thermoelectric effect -- energy conversion between ...

Researchers from TU Dresden investigate the charge and thermoelectric transport in modulation-doped large-area rubrene thin-film crystals with different crystal phases, moving closer towards highly ...

Engineers at Northwestern University have developed a new thermoelectric material that may be the most efficient one yet. The new and improved polycrystalline form of purified tin selenide has all the ...

Thermoelectric systems are based on technology that leverages differences in temperature to generate electricity, and we’ve seen how this approach can be applied to the world’s tiniest refrigerator, ...

Scientists from POSTECH and UNIST have developed a thermoelectric generator with a topology-optimized design that delivers over eight times the power output of conventional models. Using computer ...

Thermoelectric devices are devices that can convert heat into electrical energy. Researchers have now developed a thermoelectric device composed of organic materials that can generate electricity from ...