In an international experiment, researchers observed Jahn–Teller polarons—quasiparticles that could play an important role in future ultrafast spintronic devices. These polarons emerged within the ...
Researchers at Tohoku University have uncovered the long-standing mystery behind the synthesis of Janus two-dimensional (2D) semiconductors, paving the way for more precise manufacturing of materials ...
Gold’s pristine shine may depend on a hidden atomic rearrangement that makes oxygen reactions far harder, helping explain its ...
A subtle change in iron ions’ electronic configuration produces a measurable difference in seismic wave speeds through mantle ...
Could atomically precise nanoclusters mimic the chemistry of particular atoms without their toxic or cost drawbacks? James ...
Batteries are undergoing rapid advances. For example, modern zinc-air batteries have the remarkable ability to use oxygen as energy—but that oxygen isn't stored in the battery itself. Zinc-air ...
As the demand for next-generation energy storage systems with higher safety and energy density continues to escalate, all-solid-state lithium batteries (ASSLBs) have emerged as a particularly ...
Abstract: In this paper, we investigate the random telegraph noise (RTN) in hafnium-oxide resistive random access memories in high resistive state (HRS). The current fluctuations are analyzed by ...
This schematic illustrates how regulating electron spin states through six key strategies—including defect engineering, valence modulation, and magnetic field application—can optimize catalytic ...
Researchers at the Institute of Industrial Science (IIS) at the University of Tokyo in Japan have built tiny transistors that do not use silicon. Instead, the team doped gallium into indium oxide and ...
POSTECH scientists revealed how ECRAM can make AI faster by creating hidden electron pathways, paving the way for quicker processing and longer battery life in everyday tech. Credit: SciTechDaily.com ...