A research team has demonstrated that thin films of ruthenium dioxide (RuO₂) exhibit altermagnetism—the defining property of what is now recognized as the third fundamental class of magnetic materials ...

Catalytic dry reforming of methane (DRM) offers a promising strategy for the sustainable utilization of greenhouse gases, CH4 ...

A major breakthrough in battery science reveals why promising single-crystal lithium-ion batteries haven’t lived up to ...

A joint research team from NIMS, The University of Tokyo, Kyoto Institute of Technology and Tohoku University has demonstrated that thin films of ruthenium dioxide (RuO₂) exhibit altermagnetism—the ...

A newly validated magnetic state could open a path toward ultra-fast, high-density memory for future AI and data-center technologies. A collaborative team of researchers from NIMS, the University of ...

Trace tungsten dopants stabilize lithium-rich battery cathodes, sharply reducing voltage fade over hundreds of cycles.

Scientists in Japan have confirmed that ultra-thin films of ruthenium dioxide belong to a newly recognized and powerful class of magnetic materials called altermagnets. These materials combine the ...

Overview In 2026, AI startups revolve around practical problems rather than those linked to experimentation or hype.The four areas that appear to be growing mos ...

Lithium-rich layered oxides (LRLOs) offer exceptionally high capacities but suffer rapid energy loss because of irreversible migration of ...

Scientists conducted a detailed investigation into how electrowetting modulates charge storage inside carbon nanopores.