Amorphous materials have attracted increasing attention in diverse fields due to their unique
properties, yet their controllable fabrications still remain great challenges. Here, we …

Oxygen evolution reaction (OER), as a relevant half reaction for water splitting to address the
energy crisis, has captured a great deal of attention. However, this technology has always …

The crystalline‐amorphous (c–a) heterostructure is verified as a promising design for
oxygen evolution reaction (OER) catalysts due to the concerted advantages of the crystalline …

Synergy engineering is an important way to enhance the kinetic activity of oxygen‐evolution‐
reaction (OER) electrocatalysts. Here, we fabricated NiFe amorphous nanoreactor (NiFe …

The anode oxygen evolution reaction (OER) is known to largely limit the efficiency of
electrolyzers owing to its sluggish kinetics. While crystalline metal oxides are promising as …

Structural flexibility can be a desirable trait of an operating catalyst because it adapts itself to
a given catalytic process for enhanced activity. Here, amorphous cobalt hydroxide …

Highlights•Amorphous ZnCo x Ni y Oz nanosheets are produced by proton etching and ion
exchange method from a ZIF-8 template.•The high OER activity is attributed to the presence …

Rationally designing active and durable catalysts for the oxygen evolution reaction (OER) is
of primary importance in water splitting. Perovskite oxides (ABO3) with versatile structures …

The sluggish oxygen evolution reaction (OER) is a crucial limiting factor in many renewable
energy conversion and storage devices. Multi-metal oxides have been explored as efficient …

The challenge to develop a highly efficient and affordable electrocatalyst for the oxygen
evolution reaction (OER) could be fulfilled by a newly developed transition metal boron …