#STAM BaH₂ and SrH₂ exhibit stable Ni₂In-type phases under high pressure and temperature, advancing understanding of hydride-ion conductors.
🔗 https://t.co/uAZWBUfaK4 #MaterialsScience
#STAMMethods AI-based acoustic monitoring detects welding disturbances in real time, enabling autonomous quality assurance for smart manufacturing.
🔗 https://t.co/GT2UgibiLO #AI
#STAM Doped Mn₄N films offer room-temperature magnetic compensation and fast magnetization dynamics, advancing spintronics applications.
🔗 https://t.co/PZgm7eyGtU #Spintronics
#STAM Ferrocene and ruthenocene yield exotic cubic metallic phases at ultrahigh pressures, advancing metal-light element systems research.
🔗 https://t.co/nlV2ZHvYot #Metallocenes
#STAMMethods Robust luminance-histogram analysis automates RHEED image evaluation, improving in situ control of 2D material fabrication.
🔗 https://t.co/9kwuzshk6c #RHEED
本日は、 @STAM_journal より、6月2日にオンライン公開されたばかりの研究をご紹介します。
本論文は、論文コレクション「Researches on Materials Innovation Program in University of Tsukuba」に収録されています。
論文へのアクセスはこちらから👉https://t.co/0G8qs9VWLz
What is #Starrydata ? Take a look at this video commentary on the world's largest database of experimental data on thermoelectric materials! #STAMMethods https://t.co/rtAwSlMiVB
@YouTube@nezdenmama
#STAM Integration of Nb:STO with Si-based µTEGs boosts sustainable energy harvesting in low-power electronics through improved thermal management.
🔗 https://t.co/94hTCgP1An #MicroTEG
#STAM Study reveals how high-mobility carriers in RbV₃Sb₅ Kagome metal underlie superconductivity as CDW is suppressed under pressure.
🔗 https://t.co/oom5tcUL6G #Superconductivity
#STAM This review introduces “optochemistry,” merging optics and chemistry to explore new phenomena with light as waves or beams.
🔗 https://t.co/1CwqOTGTMm #Optochemistry
#STAM CNT-based air-electrode enables lithium–air batteries to operate efficiently in atmospheric O₂, achieving high energy density and long cycle life.
🔗 https://t.co/7c2tuYzfT7 #LithiumAir