Green hydrogen from electrolysis of water has attracted widespread attention as a
renewable power source. Among several hydrogen production methods, it has become the …

Hydrogen, as a promising secondary energy source, plays a crucial role in the global energy
transition. Hydrogen production via water electrolysis is pivotal for advancing the hydrogen …

The prospective of exploring “abundantly available electrolytes”, ie seawater, as an
electrolyte feedstock in electrolyzers is realized recently for supplying unlimited and …

Abstract ZIF-67-derived materials, obtained by processes such as annealing,
electrochemical reconstruction, and ion exchange, effectively overcome the limitations of low …

Hydrogen energy has garnered significant attention in recent years as a solution to address
the global energy crisis and environmental pollution. While water electrolysis stands out as …

Electrochemical water splitting typically relies on freshwater, a scarce resource in many
regions, limiting its industrial scalability. In contrast, seawater represents an abundant and …

Electrochemical splitting of seawater, especially when powered by renewable energy,
presents a promising avenue for generating clean hydrogen without relying on highly pre …

Precisely regulating the defect degree in metal-organic framework (MOF) crystals and
exploring the structure-activity relationship is of great significance for urea-assisted seawater …

Constructing and manipulating heterostructure is an effective strategy to prepare
electrocatalysts with excellent performance for water electrolysis. Herein, an efficient …

Dihydrogen (H2) constitutes a promising energy carrier for transporting part of the world's
energy demand and concomitantly for reducing toxic emissions. Water electrolysis powered …