東京工業大学

Nature's Design Marvel: How Shark Skin's Denticles Adapt to Wide Speed Range

New findings on how sharks achieve drag reduction could inspire the design of riblets for more efficient aircraft and boats. In their investigation of great white shark denticles, researchers from ...
東京工業大学

Selecting the right structural materials for fusion reactors

Do two promising structural materials corrode at very high temperatures when in contact with "liquid metal fuel breeders" in fusion reactors? Researchers of Tokyo Tech, YNU and QST now have the answer ...
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

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

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

Aluminum Scandium Nitride Films: Enabling Next-Gen Ferroelectric Memory Devices

Aluminum scandium nitride thin films could pave the way for the next generation of ferroelectric memory devices, according to a new study from Tokyo Tech. Compared to existing ferroelectric materials, ...
東京工業大学

New Design Rule for High-Entropy Superionic Solid-State Conductors

Solid electrolytes with high lithium-ion conductivity can be designed for millimeter-thick battery electrodes by increasing the complexity of their composite superionic crystals, report researchers ...
東京工業大学

Tokyo Tech's BBCube Technology to drive new next-generation 3D integration manufacturing lines by Tech Extension Co. and Tech Extension Taiwan

Tokyo Institute of Technology's WOW Alliance [1] has facilitated a groundbreaking agreement between Tech Extension Co., Ltd. (TEX) [2], Tech Extension Taiwan Co., Ltd. (TEX-T) [3], and Innolux ...
東京工業大学

Plant from Plastics: Bio-based Polymers Can Be Transformed into Fertilizers

Bioplastics can be chemically recycled into nitrogen-rich fertilizers in a facile and environmentally friendly way, as recently demonstrated by scientists from Tokyo Institute of Technology (Tokyo ...
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

Towards A Better Way of Releasing Hydrogen Stored in Hydrogen Boride Sheets

Hydrogen stored in hydrogen boride sheets can be efficiently released electrochemically, report scientists at Tokyo Tech, Osaka Univ., and Univ. Tsukuba. Through a series of experiments, they ...
東京工業大学

エネルギー最小点で動作するAI半導体(ニューラルネットワーク・アクセラレータ)技術の開発に成功

東京工業大学 科学技術創成研究院 未来産業技術研究所の菅原聡准教授と工学院 電気電子系の塩津勇作博士後期課程大学院生(研究当時)らは、エネルギー最小点(EMP)[用語1] 動作によって ...