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 ...

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 ...

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, ...

Controlling the crystal phase of cobalt nanoparticles leads to exceptional catalytic performance in hydrogenation processes, report scientists from Tokyo Tech. Produced via an innovative ...

New phased-array transmitter design overcomes common problems of CMOS technology in the 300 GHz band, as reported by scientists from Tokyo Tech. Thanks to its remarkable area efficiency, low power ...

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 ...

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 ...

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 ...

On August 27, Japan's Minister of Education, Culture, Sports, Science and Technology officially appointed Naoto Ohtake, currently professor and director-general of the Institute of Innovative Research ...

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。

東京工業大学は、特に優れた業績をあげた東工大関係者に贈る2023年度（令和5年度）手島精一記念研究賞各賞の受賞者を決定しました。 授与式は3月19日に東工大蔵前会館で行われ、研究論文 ...

東京工業大学学術国際情報センター（以下、GSIC）は、次世代スパコン「TSUBAME[用語1] 4.0」の来春稼動に向けて構築を開始します。TSUBAME4.0の理論演算性能は科学技術計算で利用される64bitの倍 ...