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 ...

Researchers have developed a new filter membrane that can efficiently remove short-chain PFAS from water. Previous treatments could only remove around 25% of these molecules from water.

Researchers at Monash University have developed a water filtration membrane ... making it an attractive method for use alongside traditional nanofiltration systems." The membrane was fabricated ...

Now, a team at EPFL, led by Professor Kumar Agrawal, has developed a scalable technique to create porous graphene membranes that selectively filter CO 2 from gas mixtures. Their approach slashes ...

This approach, which can produce pore sizes down to tens of nanometers, has found wide use in filtration. Increasingly though, researchers are looking to create ion-selective membranes by tweaking ...

A multidisciplinary clinical team led by Professor Bernat Soria from the Institute of Bioengineering at the Miguel Hernández ...

The proposed new membrane filtration systems represent the second generation of filtration for the plants, replacing the old filter beds that purified water by percolating it through a layer of ...

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