Transition metal sulfides with a multi‐elemental nature represent a class of promising
catalysts for oxygen evolution reaction (OER) owing to their good catalytic activity. However …

Developing extremely efficient electrocatalysts for oxygen evolution reactions (OER) is a
decisive step toward the progression of rechargeable metal-oxygen batteries, CO 2 …

Designing high activity and stable oxygen evolution reaction (OER) catalysts is essential for
improving the efficiency of the water splitting reaction. The high entropy transition metal …

Novel earth‐abundant metal sulfate‐containing high entropy sulfides, FeNiCoCrXS2 (where
X= Mn, Cu, Zn, or Al), are synthesized via a two‐step solvothermal method. It is shown that …

Developing highly efficient and durable electrocatalysts toward oxygen evolution reaction
(OER) is an urgent demand to produce clean hydrogen energy. In this study, a series of …

Transition metal‐based sulfides exhibit remarkable potential as electrocatalysts for oxygen
evolution reaction (OER) due to the unique intrinsic structure and physicochemical …

Development of low-cost, efficient, and durable electrocatalysts for the oxygen evolution
reaction (OER) is crucial for multiple energy conversions and storage devices. Herein, Zn …

The activity of oxygen evolution reaction (OER) catalysts is strongly dependent on the
activity of each catalytic site, which can be improved through interactions among the species …

Electrochemical hydrogen production is considered the most reliable approach to transfer
the renewable energies to the chemical energy─ namely, the hydrogen─ for storage, and …

A cost‐effective and highly efficient oxygen evolution reaction (OER) electrocatalyst will be
significant for the future energy scenario. The emergence of the core–shell heterostructure …