Unsubstituted π-electronic systems with expanded π-planes are highly desirable for improving charge-carrier transport in ...

Since it was first synthesized in a post-WW2 American lab in 1949, berkelium has been a rebel of the periodic table, defying ...

Electronic systems with delocalized electrons facilitate charge transport and molecular stacking. Ordered arrangements of ...

Researchers have developed a new strategy for assembling conductive organic materials using a highly-planar gold complex and ...

The pioneering nuclear chemist Glenn Seaborg discovered berkelium at Berkeley Lab in 1949. It was one of many achievements ...

Recent advances in the field of materials science have opened new possibilities for the fabrication of bioelectronics, devices designed to be worn or implanted in the human body. Bioelectronics can ...

Researchers from Tomsk Polytechnic University, as part of a research team, have developed a new class of materials, namely ...

This study reveals tungsten carbide-carbon nanofoam composites as efficient electrocatalysts for hydrogen evolution, ...

A breakthrough in heavy-element chemistry shatters long-held assumptions about transuranium elements. Researchers have ...

A research team from Southern University of Science and Technology discovered a small polaron effect induced by a giant ...

High entropy alloys, with unique compositions, enhance material performance, making them crucial for high-stress applications ...

These results suggest that similar reactions between helium and iron may have occurred within Earth’s core shortly after its formation, trapping much of the primordial helium-3 in the material that ...