Electrocatalysis for the oxygen evolution reactions (OER) has attracted much attention due
to its important role in water splitting and rechargeable metal-air batteries. Therefore …

In electrocatalysis, doping regulation has been considered as an effective method to
modulate the active sites of catalysts, providing a powerful means for creating a large variety …

NiOOH is considered as the most active intermediate during electrochemical oxidation
reaction, however, it is hard to directly synthesize due to high oxidation energy. Herein …

The hydrogen spillover effect has garnered considerable attention as a promising avenue to
enhance the activity of the hydrogen evolution reaction (HER) in metal‐support compound …

Hybrid materials, integrating the merits of individual components, are ideal structures for
efficient oxygen evolution reaction (OER). However, the rational construction of hybrid …

Tuning the reactivity of lattice oxygen is of significance for lowering the energy barriers and
accelerating the oxygen evolution reaction (OER). Herein, single‐atomic Mo sites are …

The simultaneous electrocatalytic conversion of N2 and CO2 into value-added urea is highly
anticipated but suffers from the predicament of the poor chemisorption, activation, and …

Catalysts featuring dinuclear metal sites are regarded as superior systems compared with
their counterparts with mononuclear metal sites. The dinuclear metal sites in catalysts with …

Electrochemical water splitting is a critical energy conversion process for producing clean
and sustainable hydrogen; this process relies on low‐cost, highly active, and durable …

Abstract Nickel hydroxide (Ni (OH) 2) is a promising electrocatalyst for the 5‐
hydroxymethylfurfural oxidation reaction (HMFOR) and the dehydronated intermediates Ni …