From brightly colored textile dyes to persistent pesticides and antibiotics, many modern pollutants dissolved in water—such ...

Reactive oxygen species are powerful enough to clean water and more. Argonne researchers found a highly sensitive way to measure them in real time.

Green hydrogen production technology, which utilizes renewable energy to produce eco-friendly hydrogen without carbon emissions, is gaining attention as a core technology for addressing global warming ...

University of Tsukuba researchers develop highly durable electrodes for hydrogen production from seawater. The multi-elemental alloy electrode can sustain anode performance for over a decade, powered ...

Hydrogen has long been billed as the clean fuel that could power steel mills, cargo ships and even long-haul trucks without pumping carbon into the atmosphere, but splitting water to make it has ...

A research team from Seoul National University College of Engineering has developed a new water electrolysis operation strategy that can produce green hydrogen without complex catalyst manufacturing ...

The water electrolysis method, a promising avenue for hydrogen production, relies on substantial freshwater consumption, thereby limiting the regions available with water resources required for water ...

XINTC has introduced an advanced electrolyzer that uses polymer components to replace expensive metals, significantly ...

Researchers developed scalable MOF electrodes that lower hydrogen costs to $2.71 per kg, offering a practical path toward large-scale clean energy production. Hydrogen is increasingly viewed as a ...

A research team from two London universities have developed a multi-layer device that addresses the instability of organic materials in water to further their use in direct solar hydrogen generation.

Low-cost, durable electrolyzers (center) could use sustainable power from wind and solar to turn pure water into hydrogen gas that can fuel industrial plants as well as heavy vehicles. A University of ...