Overview of Thermoelectric Materials
Thermoelectric materials convert heat into electricity or use electricity to create a temperature gradient for cooling. These properties make them valuable for energy harvesting, utilizing waste heat, and enabling solid-state cooling. With continuous advancements in material design and engineering, their role in sustainable energy solutions and high-efficiency thermal management continues to grow.
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Se-Jun Kim†, Koyendrila Debnath†, Se Yun Kim†, Minsu Heo, Prathap Jharapla, Young-woo Kim, Kyu Hyoung Lee*, Jeil Jung*, Hyun-Sik Kim*,"Polycrystalline BiSb alloys with enhanced thermoelectric performance: The role of titanium doping and band engineering", Journal of Alloys and Compounds, 1019, 179242, 2025.
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Minsu Heo, Se-Jun Kim, Young-Woo Kim, Changwoo Lee, Kyoung Hwan Kim, Hyun-Sik Kim*,"Zone-melting for efficient impurities removal and high-purity aluminum recovery from 7000 series computer numerical control machining scraps", Waste Management, 195, 1-9, 2025.
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Minsu Heo, Young-Wook Kim, Woo Hyun Nam, Jung Hoon Kong, Hyun-Sik Kim*, "Effect of Y2O3-RE2O3 (RE= Nd, Sm, Tb, Dy, Tm) -MgO additives on mechanical and thermal properties of silicon carbide ceramics", Journal of Alloys and Compounds, 1016, 178957, 2025.
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Congratulations to Outstanding Paper Award Winners
2024. 08. 08.