Electrocatalytic water splitting driven by renewable electricity has been recognized as a
promising approach for green hydrogen production. Different from conventional strategies in …

Transition metal nitrides (TMNs) have gained substantial interest to generate hydrogen from
direct dissociation of water via catalytic strategy. Due to the unique noble metal like …

The continuous oxidation and leachability of active sites in Ru‐based catalysts hinder
practical application in proton‐exchange membrane water electrolyzers (PEMWE). Herein …

Anthropogenic activities related to population growth, economic development, technological
advances, and changes in lifestyle and climate patterns result in a continuous increase in …

Electrochemical hydrogen evolution via water splitting has been regarded as a highly
promising technique for fossil-fuel substitution in the future to avoid environmental pollution …

Surface self‐reconstruction via incorporating an amorphous structure on the surface of a
catalyst can induce abundant defects and unsaturated sites for enhanced hydrogen …

The great interest in large-scale electrochemical water splitting toward clean hydrogen has
spurred large numbers of studies on develo** cost-efficient and high-performance …

Active and stable noble metal-free catalysts for the oxygen evolution reaction (OER) are
essential for realizing large-scale hydrogen production using proton exchange membrane …

Single-atom catalysis has been recognized as a pivotal milestone in the development
history of heterogeneous catalysis by virtue of its superior catalytic performance, ultrahigh …

Abstract Metallic MoS2 (ie, 1T‐MoS2) is considered as the most promising precious‐metal‐
free electrocatalyst with outstanding hydrogen evolution reaction (HER) performance in …