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UK Chemistry Research Leads to Breakthrough in Development of Thermoelectric Devices

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LEXINGTON, Ky. (March 3, 2021) A research study led by the University of Kentucky Department of Chemistry has discovered a new way to dramatically boost the performance of electrically conductive polymers. The discovery is considered a significant step forward in the development of organic thermoelectric devices, which can convert waste heat into useful electric energy.
Conductive polymers, which are electrically conductive plastics, have the potential to transform current electronic devices, such as smart watches, by powering the devices based on the user’s body heat. They are also attractive for converting waste heat from coal-fired power plants or heat from a car’s engine into electricity. ....

United States , United Kingdom , Douglas Strachan , Jianguo Mei , Vitaly Podzorov , Zhiming Liang , Kenneth Graham , Purdue University , United States Department Of Energy , University Of Colorado Boulder , National Science Foundation , Computational Sciences , University Of Kentucky Department Chemistry , Rutgers University , Office Of Naval Research Young Investigator Program , American Chemical Society Petroleum Research Fund , Electronics At Pohang University , University Of Kentucky , Kentucky Department , Nature Materials , Chad Risko , Naval Research Young Investigator Program , United States Department , Advanced Soft Electronics , Pohang University , ஒன்றுபட்டது மாநிலங்களில் ,

Liquid metal ink liberates form

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IMAGE: Optical microscope (OM) and scanning electron microscope (SEM) images of viscous liquid metal particles during stretching. During this process, the oxide film on the surface of the microparticles may stretch.
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Credit: POSTECH
Today s electronic devices strive for new form factors - to make them foldable, stretchable, and deformable. To produce such devices that are highly stretchable or deformable, it is necessary to develop electrodes and circuit lines whose electrical properties can withstand harsh deformation or mechanical damage. To this, POSTECH-Yonsei University joint research team has recently developed liquid metal ink to accelerate printed electronic devices that can be changed into any shape. ....

South Korea , Unyong Jeong , Selvaraj Veerapandian , Woosun Jang , Yonsei University Department Of Materials Science , National Research Foundation Of Korea , Professor Aloysius Soon Of Yonsei University , Department Of Materials Science , Postech Yonsei University , Korea Research Institute Of Chemical Technology , Creative Materials Discovery Program , Ministry Of Science , Yonsei University , Materials Science , Professor Aloysius Soon , Nature Materials , Professor Unyong Jeong , Professor Unyong , Advanced Soft Electronics , Global Frontier Project , National Research Foundation , Future Planning , Korea Research Institute , Chemical Technology , Chemistry Physics Materials Sciences , Electrical Engineering Electronics ,