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大石勝隆氏らの睡眠障害に関する＠SciReports #OA #論文 Potential non-invasive biomarkers of chronic sleep disorders identified by salivary metabolomic profiling among middle-aged Japanese men nature.com/articles/s4159… #オープンアクセス 産業技術総合研究所（産総研） 東京理科大学 東京大学 | UTokyo 【公式】茨城大学 | IBARAKI University

A study by #TokyoUniversityofScience #TUS reveals three new enzyme families that break down β-1,2-glucans, reshaping our understanding of #GlycosideHydrolases and opening doors for #EnzymeEngineering in medicine, agriculture, and green chemistry. #Glycotime Read more:

A recent Scientific Reports study by #TUS scientists presents a #SelfPowered #ArtificialSynapse that mimics human color vision with high resolution, unlocking #ComputerVision in #EdgeDevices with minimal #EnergyConsumption. ow.ly/XZlA50W6QWQ

Recent research news published in #ScienceJapan reveals how Professor Ryuji Tamura and team from #TokyoUniversityofScience solved the half-century-old challenge of observing #Antiferromagnetism in #Quasicrystals, opening up new avenues in the field of condensed-matter #Physics.

Researchers at #TokyoUniversityofScience #TUS uncover a new enzyme group, “SGL clan,” that degrades β-1,2-glucans. This breakthrough could lead to novel #carbohydrate synthesis for medical and industrial applications. #Glycotime Read more: ow.ly/OBn550WaHCb

New #TokyoUniversityOfScience study reveals the significant impact of ultrasmall silica #Nanoparticles on the secondary structure of bovine serum albumin: ow.ly/inwy50WgJTc #TUS #ResearchNews #Nanomedicine #Spectroscopy #Biophysics #ProteinStructure

A study in Physical Review Letters by #TokyoUniversityofScience (#TUS) reveals that in strong magnetic fields, #OrbitalMotion overtakes #Spin, reversing #AngularMomentum, a breakthrough for #Orbitronics and #QuantumPhysics. Read more: ow.ly/ki3750WjAHj

New #TUS study shows that ultrasmall #Silica #Nanoparticles can induce abnormal #protein conformations in bovine serum albumin & may even contribute to the development of protein-related health disorders: ow.ly/J45C50WgJXo #Nanomedicine #ProteinStructure #Spectroscopy

Researchers at #TokyoUniversityofScience (#TUS) find that in strong magnetic fields, #Magnetrovortical matter does not follow usual spin alignment rules. Physical Review Letters study by #TUS. Read more: ow.ly/C6Yt50WmVz7

Tokyo University Of Science researchers have conducted the first-ever photoemission spectroscopy analysis of crystalline Indium Gallium Zinc Oxide—a key material in Display technology—revealing how atomic-scale defects influence its electronic properties. To know more:

New Tokyo University Of Science (TUS) study reveals two novel synthesis mechanisms to produce highly conductive coordination nanosheets that can be utilized to generate hydrogen energy and in producing electronic devices: ow.ly/OFwb50Wo8hQ

TUS researchers have developed a novel physics informed AI approach that automatically identifies the origin of energy loss in electrical steel, enabling the development of more efficient electric vehicles. Read more: ow.ly/ZET150Wp7XU

Study from Tokyo University Of Science (TUS) reveals the formation of oxygen vacancies and subgap states in crystalline Indium Gallium Zinc Oxide—a first that could lead to improved Display technology. Read more: ow.ly/6wpy50WnciM

In a new Advanced Materials study, Tokyo University of Science researchers develop a new method to improve battery life of sodium ion batteries, utilizing copper doping to suppress faults in β-NaMnO2electrodes, resulting in enhanced cycling stability. Read more:

New Tokyo University Of Science study shows that by employing colloidal solutions of metal ions and organic ligands, novel coordination sheet-based nanomaterials with superior conductivity and flexibility can be produced: ow.ly/xCv050Wo8ig

New @PLOSOne study by TUS researchers finds that exposure to sound stress exacerbates and prolongs pain responses and inflammation in mice. Find out more about the mechanisms of emotional pain transmission here: ow.ly/KVJX50WrLVh

Exposure to pain-related ultrasonic sounds alone can heighten and prolong pain sensitivity in #Mice, indicating that sound #Stress may drive hyperalgesia and inflammation without direct physical injury. 東京理科大学 PLOS One doi.org/g9tmz4 medicalxpress.com/news/2025-07-s…

Researchers from TUS have developed a new model using the extended Ginzburg Landau Framework, that enables automatic analysis of magnetization reversal in electrical steel, addressing the origin of energy loss in these materials. Read more: ow.ly/WeP850Wp7ZH

In a recent Advanced Materials study, researchers at Tokyo University of Science, investigate how copper doping can enhance the cycling stability of β-NaMnO2 electrodes, paving the way for more affordable energy storage solutions with long life sodium ion batteries. More at:

Naïve mice exposed to ultrasonic stress sounds emitted by mice in pain exhibited heightened pain sensitivity and brain inflammation, reveals this new @PLOSOne study by TUS researchers: ow.ly/XQ1X50WrLYW