Antiferromagnetic materials, with antiparallel atomic spins and zero net magnetization, are fast and resistant to external ...

Trying to untangle a knot in a mess of strings can be frustrating and time-consuming. But not so for molecular ...

Indian scientists developed a cadmium-free CIS thin-film solar cell using indium oxide as an electron transport layer, achieving a simulated efficiency of 29.79% with SCAPS-1D modeling. Through ...

A MOF-based nanocomposite for removing and detecting radioactive iodine, supporting nuclear wastewater treatment and ...

Artificial intelligence is driving a new era in spectroscopy and materials science by enabling faster data interpretation, more accurate property predictions, and even the generation of new materials.

From wood pulp in ice-cream to peat in portobellos, science has transformed how we dine. Do you know exactly what’s lurking in the grub we eat?

Proton exchange membrane water electrolyzers (PEMWEs) are regarded as a potential technology to generate green hydrogen as a ...

Sulfate radical (SO4•- )-based advanced oxidation processes (AOPs) are appealing for removing persistent organic pollutants from wastewater, but current mainstream activation of peroxydisulfate (PDS) ...

Polymer nanocomposites offer chemists a powerful platform for designing materials with tunable mechanical, transport, optical, and electronic properties. However, achieving precise control over ...

Nanomaterials ranging from 1 to 100 nanometers in size have attracted significant scientific interest because their properties often differ from those of their bulk counterparts. These differences ...