Recently, researchers developed a new electrode material for an electrochemical cell that can efficiently convert excess electricity and water into hydrogen. When demand for electricity increases, the ...

As green hydrogen emerges as a key next-generation clean energy source, securing technologies that enable its stable and cost ...

A recent study led by Prof. WANG Qi's research group from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences successfully synthesized iron and nitrogen co-doped CoFeP-N ...

A German research team has developed a photovoltaic-electrochemical device for alkaline water electrolysis that can be linked to battery storage. The proposed system configuration can not only ...

Researchers at Germany’s Jülich Institute for Energy and Climate Research (IEK-5) have created a photovoltaic–electrochemical (PV-EC) water-splitting device powered by solar energy. The integrated ...

A team has developed a less expensive water electrolysis system that works under alkaline conditions but still produces hydrogen at comparable rates to the currently used system that works under ...

A grain of salt or two may be all that microbial electrolysis cells need to produce hydrogen from wastewater or organic byproducts, without adding carbon dioxide to the atmosphere or using grid ...

Hydrogen has long been sold as a clean fuel, yet most of it is still produced from fossil gas with a heavy carbon footprint.

This approach is extremely attractive from an environmental standpoint because there are no greenhouse gases produced when using hydrogen in a fuel cell and the mild conditions used during ...