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Research on low-toxicity and low-cost thermoelectric materials
Thermoelectric conversion is a direct energy conversion between heat and electricity. The conversion is based on the Seebeck effect, one of the thermoelectric phenomena. The effect can be seen in all materials, including, for example, the 100-yen coin in your pocket. However, the conversion efficiency is not sufficient for the Ni-Cu alloy. Thus, we are exploring alternative high-performance, low-toxic, and low-cost thermoelectric materials.
Development of future nuclear fuels
A high level of security is required in nuclear power plants, while a reduction in the radioactive waste is crucial to reducing the environmental load over a long period of time. To address these issues, a combination of reactors of different types and new nuclear fuels may be an option. In our laboratory, we are attempting to develop nuclear fuels that will be suitable for future nuclear systems.
Thermoelectric conversion is a direct energy conversion between heat and electricity. The conversion is based on the Seebeck effect, one of the thermoelectric phenomena. The effect can be seen in all materials, including, for example, the 100-yen coin in your pocket. However, the conversion efficiency is not sufficient for the Ni-Cu alloy. Thus, we are exploring alternative high-performance, low-toxic, and low-cost thermoelectric materials.
Development of future nuclear fuels
A high level of security is required in nuclear power plants, while a reduction in the radioactive waste is crucial to reducing the environmental load over a long period of time. To address these issues, a combination of reactors of different types and new nuclear fuels may be an option. In our laboratory, we are attempting to develop nuclear fuels that will be suitable for future nuclear systems.
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International Journal of Thermophysicsno. 1 (2024): 1-19
INTERNATIONAL JOURNAL OF THERMOPHYSICSno. 1 (2024)
Journal of Nuclear Materialspp.155048, (2024)
JOURNAL OF NUCLEAR SCIENCE AND TECHNOLOGY (2023)
HIGH TEMPERATURES-HIGH PRESSURESno. 3-4 (2023): 307-321
JOURNAL OF NUCLEAR SCIENCE AND TECHNOLOGYno. 4 (2023): 425-434
IEEE TRANSACTIONS ON MAGNETICSno. 11 (2023): 1-6
MATERIALS TRANSACTIONSno. 8 (2023): 2014-2017
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