Researchers identify hierarchical moire patterns in 2D materials, enabling a tunable platform for designing next-generation quantum materials at the atomic scale.

A joint research team has successfully developed a two-dimensional (2D) quantum material platform through the superposition of moiré lattices.

Abstract: This paper proposes a 3-level inverter scheme with a single dc source to ... A 5hp 9-0 4-pole FEM model is designed in Ansys Maxwell 2-D for validating the proposed MLI configuration. This ...

X-ray fluorescence analysis has played a significant role in material elemental identification and charge state measurements during exploration of ...

A team led by Professor Masakatsu Murakami has developed a novel concept called micronozzle acceleration (MNA). By designing ...

Important evidences of core–shell configurations of the Pt–Pd core–shell nanoparticles were clearly characterized by high-resolution transmission electron microscopy (HRTEM) measurements. The results ...

Abstract: Single-phase ac/dc or dc/ac systems are inherently subject to the harmonic disturbance that is caused by the well-known double-line frequency ripple power. This issue can be eased through ...

These fundamental findings offer a novel mechanism by which rubrerythrin tubules encapsulate encapsulin to prevent oxidative stress in Pyrococcus furiosus. However, there are a few reasonable concerns ...

On May 29, at the 2025 SMM (2nd) Rare Earth Industry Forum hosted by SMM Information & Technology Co., Ltd. (SMM), Liang Xingfang, the Deputy Director of the Shandong Rare Earth Research Institute, ...

Find out how solar cells power a good portion of homes today—and how they might power almost everything in the future.