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東京工業大学10mon
Science Tokyo formerly Tokyo Tech - 東京工業大学
Information about Tokyo Institute of Technology (Tokyo Tech), Admission Information, Enrollment Information, Introduction to Departments and Graduate Schools, Research Activities, Libraries and ...
東京工業大学1y
伝導率が世界最高のリチウムイオン伝導体が示す全固体電池設計の新しい方向性 次世代電池材料を用いた厚膜型全固体リチウム ...
(左から)菅野了次特命教授、堀智特任准教授 要点 伝導率が世界最高の固体電解質の超リチウムイオン伝導体を開発。 開発した材料を用いて電極面積あたりの容量が現行の1.8倍の厚膜正極を作製し、優れた電池特性を実証。 開発した厚膜正極と次世代電池材料として注目されているリチウム ...
東京工業大学1y
BBCube 3D: A Breakthrough in Semiconductor Integration and Data Transmission Implementing CPU/GPU and Memory in a Hybrid 3D Approach
Moreover, BBCube 3D also represents a major breakthrough in terms of the bit access energy. "Due to the BBCube's low thermal resistance and low impedance, the thermal management and power supply ...
東京工業大学2y
High-accuracy Electric Vehicle Battery Monitoring with Diamond Quantum Sensors for Driving Range Extension Towards Carbon Neutrality | Tokyo Tech News - 東京工業大学
The issue of battery usage inefficiency in electric vehicles resulting from an inaccurate battery charge measurement may finally get resolved, thanks to a diamond quantum sensor prototype developed in ...
東京工業大学1y
超高速イオン伝導と高安定性を示す低環境負荷材料を創製し、新しい伝導機構を解明 新イオン伝導体・燃料電池・センサー等の ...
要点 従来の材料より175倍高い酸化物イオン(O2−)伝導度を持つBa7Nb3.8Mo1.2O20.1を創製 新材料は高いプロトン(H+)伝導度、高い安定性、希土類や鉛を含まないこと、低い焼結温度という低環境負荷といった特徴も持つ バケツリレー型超高速酸化物イオン伝導などの、新しいイオン伝導機構を ...
東京工業大学1y
Japan's Technology Progress Pushes Laser Fusion Energy Closer to Commercialization Tokyo Tech and EX-Fusion Establish Collaborative Research Cluster | Tokyo Tech News | Tokyo ...
Tokyo Institute of Technology (Tokyo Tech) and EX-Fusion Inc. (EX-Fusion) have established a Collaborative Research Cluster focused on advancing liquid metal devices [1] for the realization of ...
東京工業大学2y
Ba2LuAlO5: A New Proton Conductor for Next-Generation Fuel Cells | Tokyo Tech News | Tokyo Institute of Technology - 東京工業大学
The discovery of Ba 2 LuAlO 5 as a promising proton conductor paints a bright future for protonic ceramic fuel cells, report scientists from Tokyo Tech. Experiments show that this novel material has a ...
東京工業大学1y
A Novel 640 Gbps Chipset Paves the Way for Next Generation Wireless Systems - 東京工業大学
A new D-band CMOS transceiver chipset with 56 GHz signal-chain bandwidth achieves the highest transmission speed of 640 Gbps for a wireless device realized with integrated circuits, as reported by ...
東京工業大学1y
Towards Artificial Photosynthesis with Engineering of Protein Crystals in Bacteria | Tokyo Tech News | Tokyo Institute of Technology - 東京工業大学
In-cell engineering can be a powerful tool for synthesizing functional protein crystals with promising catalytic properties, show researchers at Tokyo Tech. Using genetically modified bacteria as an ...
東京工業大学1y
Towards Realizing Eco-Friendly and High-Performance Thermoelectric Materials | Tokyo Tech News | Tokyo Institute of Technology - 東京工業大学
1 Research Center for Element Strategy, International Research Frontiers Initiative, Tokyo Institute of Technology, Japan. 2 Research Center for Magnetic and Spintronic Materials, National Institute ...
東京工業大学2y
Durable, Inexpensive Catalyst Reduces Carbon Footprint of Ammonia Production | Tokyo Tech News | Tokyo Institute of Technology - 東京工業大学
The Haber-Bosch process, which is commonly used to synthesize ammonia (NH 3)–the foundation for synthetic nitrogen fertilizers–by combining hydrogen (H 2) and nitrogen (N 2) over catalysts at high ...
東京工業大学2y
Tokyo Tech Research Video "Dynamic self-assembly of designed protein 'Needles'" Now Online Proteins self-assemble nano patterns | Tokyo Tech News | Tokyo ... - 東京工業大学
Proteins have various functions in vivo that can potentially be applied to pharmaceuticals and nanomaterials as a naturally-derived material. A research group of doctoral student Kosuke Kikuchi and ...