This review highlights in situ UV–vis–NIR range absorption spectroscopy in catalysis. A
variety of experimental techniques identifying reaction mechanisms, kinetics, and structural …

Single‐atom sites (SASs) are commonly stabilized and influenced by neighboring atoms in
the host; disclosing the structure–reactivity relationships of SASs in water electrolysis is one …

Develo** cost-effective electrocatalysts and elucidating the in situ catalytic mechanism of
the urea oxidation reaction (UOR) is a cornerstone for develo** urea-based technology …

Understanding what controls the reaction rate on iridium-based catalysts is central to
designing better electrocatalysts for the water oxidation reaction in proton exchange …

As inspired by the Mn4CaO5 oxygen evolution center in nature, Mn-based electrocatalysts
have received overwhelming attention for water oxidation. However, the understanding of …

Electrocatalytic urea oxidation reaction (UOR) with a low thermodynamic potential is a
perfect substitute for anodic oxygen evolution process (OER) in the effective generation of …

Single-atom catalysts (SACs) on hematite photoanodes are efficient cocatalysts to boost
photoelectrochemical performance. They feature high atom utilization, remarkable activity …

A barrier to understanding the factors driving catalysis in the oxygen evolution reaction
(OER) is understanding multiple overlap** redox transitions in the OER catalysts. The …

Understanding the effect of noncovalent interactions of intermediates at the polarized
catalyst–electrolyte interface on water oxidation kinetics is key for designing more active and …

Single-atom catalysts (SACs) have recently emerged in electrocatalysis due to their
improved electrocatalytic performance in many industrially relevant reactions. The potential …