Traditional oxygen-ion–conducting cells require high operating temperatures, creating cost, durability, and material ...

The chemistry of porphycenes has evolved into a dynamic field that bridges coordination chemistry and proton transfer mechanisms. Unique among macrocycles, porphycenes are structural isomers of ...

Innovative co-doping strategy overcomes long-standing limits in proton conduction, opening a new way for efficient hydrogen-to-electricity conversion.

A newly developed ceramic material shows record-high proton conductivity at intermediate temperatures while remaining ...

Protons are the basis of bioenergetics. We know them, in our everyday life, from the pH values we see on various soaps and lotions. But the ability to move them through biological systems is essential ...

Protons, the positively charged particles that help build every atom in our bodies, are starting to look less like classical billiard balls and more like quantum actors. A growing body of research now ...

Quantum physics is usually associated with particle colliders and vacuum chambers, not with the proteins quietly shuttling energy inside our cells. Yet a new line of research argues that protons in ...

A neutrino is one of the most well-known, and arguably most mysterious, particles in all of physics. This is because while they exist in vast quantities throughout the universe, they are also very ...

The bacteria of the family Desulfobulbaceae are like living electric cables—they can conduct electrons over centimeter-scale distances along their filamentous structures. These electric currents can ...