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東京工業大学8mon
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9mon
Novel Machine Learning-based Cluster Analysis Method that Leverages Target Material Property
Conventional clustering techniques often focus on basic features like crystal structure and elemental composition, neglecting target properties such as band gaps and dielectric constants. A Tokyo Tech ...
東京工業大学9mon
ポリイミドの6G周波数域における誘電特性を解明
第6世代移動通信システムを支える低誘電材料の開発加速に期待 5Gから6Gへの移動通信システムの進展に伴い、ミリ波[用語14] 技術の利用が急速に進んでいる。この技術は100 GHzを超える高周波 ...
東京工業大学9mon
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10mon
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10mon
Improving the Design of mRNA-loaded Nanocarriers for Targeted Therapies
Substituting amines with phosphonium-based cations could greatly improve the performance of mRNA-loaded polymeric micelles, report scientists from Tokyo Tech. By adopting this innovative strategy, ...
東京工業大学11mon
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11mon
Towards Wider 5G Network Coverage: Novel Wirelessly Powered Relay Transceiver
A novel 256-element wirelessly powered transceiver array for non-line-of-sight 5G communication, featuring efficient wireless power transmission and high-power conversion efficiency, has been designed ...
東京工業大学11mon
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1y
Novel Au-BiFeO3 Nanostructures for Efficient and Sustainable Degradation of Pollutants
Au-decorated BiFeO 3 nanocrystals are promising, efficient, and sustainable photocatalysts for environmental pollutant degradation, as shown by scientists at Tokyo Tech. Their findings on the ...
東京工業大学1y
From Defects to Order: Spontaneously Emerging Crystal Arrangements in Perovskite Halides
A new hybrid layered perovskite featuring elusive spontaneous defect ordering has been found, report scientists at Tokyo Tech. By introducing specific concentrations of thiocyanate ions into FAPbI 3 ...
東京工業大学1y
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。