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

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

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

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

100 kW hydrogen fuel cell - digital twin in operation - using green hydrogen and waste plastic hydrogen

The Tokyo Tech InfoSyEnergy Research and Education Consortium, the Tokyo Tech Academy of Energy and Informatics (Head of Consortium and Academy Director Manabu Ihara, Prof.), and several companies ...
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

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

Toward Sustainable Energy Applications with Breakthrough in Proton Conductors

Donor doping into a mother material with disordered intrinsic oxygen vacancies, instead of the widely used strategy of acceptor doping into a material without oxygen vacancies, can greatly enhance the ...
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

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

Novel Tin-Based Metal–Organic Frameworks for Reducing Carbon Dioxide to Formate

Researchers from Tokyo Tech have developed a tin-based metal–organic framework (MOF) that can photocatalytically reduce carbon dioxide (CO 2) into formate under visible light. The tin-based MOF ...