With the global shift towards sustainable and renewable energy, the urgency to develop efficient methods for producing clean ...
Water oxidation offers a promising path to achieve sustainable energy by efficiently generating oxygen. This study investigates how optimizing Ru(II) photosensitizers, metal oxide catalysts, and pH ...
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.
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.
Non-photochemical quenching is a protective mechanism that plants employ to dissipate excess light energy. Plants often absorb more light energy than they can process in photosynthesis ...
This research uncovers critical variables in water-splitting, emphasizing catalyst performance and pH for advancing ...
Organic peroxy radicals (RO 2) and Criegee intermediates (CI, carbonyl oxides) are key reactive species in atmospheric chemistry and play crucial roles in the formation of secondary organic ...
A long-term and significant downward trend of air pollutant concentrations has been observed, according to a report on air ...