A bacterial cell settles onto a nondescript surface. It is plump, healthy and functioning as it should. Nothing appears amiss ...

Every medication in your cabinet, every material in your phone's battery, and virtually every compound that makes modern life work started as a molecular guess, with scientists hypothesizing that a ...

Copper atoms trapped in MXene nanochannels remove 94.9% of bisphenol A in 5 minutes by concentrating reactants and lowering ...

When a laser experiment fails to produce the expected flash of light, most researchers would assume something went wrong with ...

Key Points Years of studying natural surfaces-like the nanopillared wings of cicadas and dragonflies-have revealed a powerful ...

In a Columbia University laboratory in New York, physicist Sebastian Will and his team have reached one of ultracold physics’ long-running goals: turning molecules into a Bose-Einstein condensate.

How atomic-layer deposition and hybrid dielectrics are redefining reliability and scaling for AI-era semiconductors.

Piezofluorochromism, the phenomenon of materials reversibly changing their fluorescent color when pressure is applied, is ...

Achieving high-energy density remains a key objective for advanced energy storage systems. However, challenges, such as poor cathode conductivity, anode dendrite formation, polysulfide shuttling, and ...

Cubene and quadricyclene are descended from cubane and quadricylane, both cage-shaped structures with bonds that are fairly ...

As global demand for sustainable energy surges, the performance ceiling of current battery technologies is increasingly tied to how efficiently ions ...

Figure 1: Structures of the Fd–FNR complex and PDR. Figure 3: NMR chemical shift perturbation of Fd upon complex formation with FNR. Figure 4: Structural perturbation of FNR induced by complex ...