Capturing carbon dioxide (CO2) from industrial emissions is crucial in the fight against climate change. But current methods, ...

Capturing CO₂ from industrial emissions is vital to combating climate change, but current methods are costly and inefficient.

Scientists at EPFL have developed a scalable method to produce porous graphene membranes that efficiently separate carbon ...

The membrane's liquid phase is particularly ... CO 2 emissions and supporting clean energy production through hydrogen purification. The versatility of this phase-transformable membrane opens ...

A breakthrough by researchers at The University of Manchester sheds light on one of nature's most elusive forces, with ...

Scientists have developed a scalable method to produce porous graphene membranes that efficiently separate carbon dioxide. The breakthrough could significantly reduce the cost and footprint of carbon ...

Membranes for hydrogen purification The hydrogen produced by electrolysis contains moisture and impurities that can impair both the quality and safety of the gas. This makes efficient processes ...

Domestic researchers have developed a polymer electrolyte membrane that can significantly improve electrochemical hydrogen storage technology. A joint research team, including So Soon-yong ...

A breakthrough by researchers at The University of Manchester sheds light on one of nature's most elusive forces, with ...

in which water is split into hydrogen and oxygen. This consists of carefully layered, gas-tight, welded bipolar plates and plastic membranes – among the main cost factors in every electrolysis ...

including hydrogen purification and oxygen production. With its scalable production process and cost-effective materials, EPFL's innovation brings graphene membranes one step closer to commercial ...