東京工業大学

High-accuracy Electric Vehicle Battery Monitoring with Diamond Quantum Sensors for Driving Range Extension Towards Carbon Neutrality

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

A Novel 640 Gbps Chipset Paves the Way for Next Generation Wireless Systems

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

Penguin Physics: Understanding the Mechanisms of Underwater Turning Maneuvers in Penguins

Penguins generate centripetal force when turning by pointing their belly inwards and moving their wings asymmetrically, as shown by scientists at Tokyo Tech. Their findings shed light on the ...
東京工業大学

Ba2LuAlO5: A New Proton Conductor for Next-Generation Fuel Cells

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

BBCube 3D: A Breakthrough in Semiconductor Integration and Data Transmission

A technology for the three-dimensional integration of processing units and memory, as reported by researchers from Tokyo Tech, has achieved the highest attainable performance in the whole world, ...
東京工業大学

Innovator in Optoelectronics: Fumio Koyama Awarded IEEE Nick Holonyak Jr. Medal for Semiconductor Optoelectronic Technologies

Emeritus Professor Fumio Koyama of Tokyo Institute of Technology (Specially Appointed Professor at the Institute of Innovative Research) has been selected as the recipient of the 2024 IEEE Nick ...
東京工業大学

欠陥を並べることで有機-無機ハイブリッドペロブスカイト化合物の新たな派生構造を発見

有機-無機ハイブリッドペロブスカイト化合物への分子イオン添加で、欠陥が整列した新たな一連の派生構造の生成を発見。 分子イオンの添加量によって欠陥量を制御し、光学特性を制御可能。
東京工業大学

Efficient Carbon Dioxide Reduction under Visible Light with a Novel, Inexpensive Catalyst

A novel coordination polymer-based photocatalyst for CO 2 reduction exhibits unprecedented performance, giving scientists at Tokyo Tech hope in the fight against global warming. Made from abundant ...
東京工業大学

A Deep Dive into Polyimides for High-Frequency Wireless Telecommunications

Detailed measurements and analysis of the dielectric properties of polyimides could bolster the development of 6G wireless communication technologies, report scientists from Tokyo Tech and EM Labs, ...
東京工業大学

Inorganic Borophene Liquid Crystals: A Superior New Material for Optoelectronic Devices

Liquid crystals derived from borophene have risen in popularity, owing to their immense applicability in optoelectronic and photonic devices. However, their development requires a very narrow ...
東京工業大学

Photonic topological phase transition achieved by material phase transition

A collaborating team of NTT Corporation (NTT) and Tokyo Institute of Technology (Prof. Masaya Notomi in Physics Department) has succeeded in achieving photonic topological phase transition by material ...
東京工業大学

α-Al2O3 Protective Layer That Sticks to Metal Surface with Functions of an Anchor and Peg

Fusion reactors, fast breeder reactors, and solar thermal power plants are being developed as power plants with low environmental impact and no resource constraints. Since these power plants operate ...