東京工業大学

東京工業大学は、2024年10月に東京医科歯科大学と統合し、東京科学大学(Science Tokyo)となりました。

本サイトの情報は、順次、Science Tokyoのサイトに移行していきます。公開されているページは東京科学大学の情報として有効なものです。 旧友との「再会」と新たな「出会い ...
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

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

Hexagonal Perovskite Oxides: Electrolytes for Next-Generation Protonic Ceramic Fuel Cells

Fuel cells offer a promising solution for clean energy by combining hydrogen and oxygen to generate electricity, with only water and heat produced as byproducts. They consist of an anode, a cathode, ...
東京工業大学

Tokyo Tech's TSUBAME4.0 supercomputer is now operational

The Global Scientific Information and Computing Center (GSIC) at Tokyo Tech started operation of its next-generation supercomputer, TSUBAME 4.0, on April 1. Since TSUBAME1.0 started operation in April ...
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

Steric Zipper Interactions in Artificial Crystalline Peptide β-Sheets

A novel approach to constructing crystalline artificial steric zippers has been reported by scientists at Tokyo Tech. Such structures contribute to the extraordinary stability of amyloid fibrils ...
東京工業大学

日本語に強い大規模言語モデル「Swallow」を公開

日本語能力に優れビジネスにも安心して活用できる大規模言語モデルを公開 継続事前学習により大規模言語モデルの日本語能力を改善 高度な日本語処理が求められる多くの場面で、生成AI ...
東京工業大学

Novel Diamond Quantum Magnetometer for Ambient Condition Magnetoencephalography

A highly sensitive diamond quantum magnetometer utilizing nitrogen-vacancy centers can achieve millimeter-scale resolution magnetoencephalography (MEG), as reported by scientists from Tokyo Tech. The ...
東京工業大学

性能や安全性の手元での検証を可能にし、ブロックチェーン技術の研究・開発を加速

東京工業大学 情報理工学院 数理・計算科学系の首藤一幸准教授、青木優介大学院生(研究当時)、大月魁大学院生、金子孟司大学院生、永山流之介大学院生、坂野遼平研究員らの研究 ...
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

No Space Wasted: Embedding Capacitors into Interposers to Increase Miniaturization

Scientists at Tokyo Institute of Technology develop a 3D functional interposer—the interface between a chip and the package substrate—containing an embedded capacitor. This compact design saves a lot ...