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RIES: Contributing to advancement of life and energy sciences through an interdisciplinary approach

Date Time RIES: Contributing to advancement of life and energy sciences through an interdisciplinary approach Seventy-eight years have passed since the establishment of the Research Institute of Ultrashort Waves in 1943. The seed planted on that day has grown into what is currently known as the Research Institute for Electronic Science (RIES) of Hokkaido University. The institute has blossomed and produced achievements in the creation of knowledge. The mid-term evaluation conducted by Japan’s Ministry of Education, Culture, Sports, Science, and Technology (MEXT) granted RIES the highest grade on a five-point grading scale. In this accomplishment, three key members of RIES joined in the following discussion, reminiscing the institute’s progress, past achievements, and attention shift towards interdisciplinary and sharing their hopes.

Nanotechnology Now - Press Release: Record-setting thermoelectric figure of merit achieved for metal oxides

Home > Press > Record-setting thermoelectric figure of merit achieved for metal oxides The barium-cobalt oxide film (top right, approximately 1 cm2) being exposed to an open flame to generate voltage. (Photo: Hiromichi Ohta) CREDIT Hiromichi Ohta Abstract: Scientists at Hokkaido University have developed a layered cobalt oxide with a record-setting thermoelectric figure of merit, which can be used to enhance thermoelectric power generation. Record-setting thermoelectric figure of merit achieved for metal oxides Hokkaido, Japan | Posted on December 29th, 2020 Waste heat is a highly promising source of renewable energy; however, the efficiency of using heat to generate energy has historically been much lower than hydroelectric, wind or solar power. While there are a number of materials that can be used for the generation of energy from waste heat, they all suffer from various issues ranging from low stability to low efficiency. Nevertheless, the fact that a large number of in

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