Electrocatalytic water splitting is an appealing method for generating renewable hydrogen.
In acidic media, noble metals are commonly used as electrocatalysts, whereas in alkaline …

Rational exploration of efficient, inexpensive, and robust electrocatalysts is critical for the
efficient water splitting. Conjugated conductive metal–organic frameworks (cMOFs) with …

Hydrogen production through alkaline water electrolysis holds great promise as a scalable
solution for renewable energy storage and conversion. The development of non-precious …

Highlights Three-dimensional (3D) core‐shell heterostructured NixSy@ MnOxHy nanorods
grown on nickel foam (NixSy@ MnOxHy/NF) were successfully fabricated via a simple …

Designing affordable and efficient bifunctional electrocatalysts for the hydrogen evolution
reaction (HER) and oxygen evolution reaction (OER) has remained a long‐lasting target for …

Exploring highly active and stable bifunctional water‐splitting electrocatalysts at ultra‐high
current densities is remarkably desirable. Herein, 3D nickel‐iron phosphides nanosheets …

Abstract Design of high-performance pH-universal electrocatalysts is critical to practical
large-scale hydrogen generation as a carbon-neutral fuel, yet challenging. Herein, we report …

Developing high‐efficiency and cost‐effective bifunctional catalysts for water electrolysis is
fascinating but still remains challenging. Thus, diverse strategies have been utilized to boost …

Abstract Development of efficient electrocatalysts requires construction of catalytic surfaces
with moderate H adsorption energy. Here, we address this challenge by Br-induced …

Construction of durable multi-function electrocatalysts for hydrogen production is still highly
challenging. Herein, we report a hierarchical integrated tri-functional heterogeneous …