Transition metal borides, carbides, pnictides, and chalcogenides (X-ides) have emerged as
a class of materials for the oxygen evolution reaction (OER). Because of their high earth …

Transition metal hydroxides (M‐OH) and their heterostructures (X| M‐OH, where X can be a
metal, metal oxide, metal chalcogenide, metal phosphide, etc.) have recently emerged as …

For decades, turnover frequency (TOF) has served as an accurate descriptor of the intrinsic
activity of a catalyst, including those in electrocatalytic reactions involving both fuel …

Layered double hydroxides (LDHs) have attracted intense interest in recent research and
hold promise in a vast range of applications. Because of the layered structure and diverse …

To design heterojunction electrocatalysts for water splitting in industrial plants, replacing
RuO 2, IrO 2, and Pt/C remains challenging. We prepared heterostructures of nickel selenide …

Hydrogen can be produced in a clean way from water by its electrochemical splitting. Water
electrolysis consists of two half-reactions, of which the oxygen evolution reaction (OER) is …

The preparation of hydrogen by electrolysis of water has the characteristics of easily
available raw materials, simple process and eco-friendly, which has aroused the interest of …

Constructing heterojunction nanocomposites with optimized active sites and interface
electronic structures is promising for hydrogen evolution reaction (HER). Herein, we present …

In a search of alternates for oxygen evolution reaction (OER) and hydrogen evolution
reaction (HER), out of various transition metal-based electrocatalysts, layered double …

Transition metal-based layered double hydroxides (LDHs) have attracted significant
attention in recent research in electrochemistry and hold promising capacity in a wide range …