Scientists are turning this vision into reality through photochemical water oxidation, a process that uses light to split water molecules, releasing oxygen and enabling clean, sustainable energy.

Colloidal quantum dots are showcasing their potential beyond vibrant colors, diving deep into quantum effects such as spin ...

A study explores how natural photochemical reactions can help degrade emerging contaminants in freshwater systems, ...

Scientists are turning this vision into reality through photochemical water oxidation, a process that uses light to split water molecules, releasing oxygen and enabling clean, sustainable energy.

Severe wintertime ozone (O3) pollution may be driven by alkene emissions from local petrochemical industries, and can be ...

Bodenstein, who courteously informed us last May that, in the course of comprehensive experiments, he had been unable to inhibit the photochemical reaction of hydrogen and chlorine by intensive ...

The simultaneous capability of colloidal QDs to sustain robust room-temperature spin quantum coherence and to engage in ...

Recent studies reveal Jupiter's clouds are formed from ammonium hydrosulfide mixed with photochemical materials ...