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

Now, a team at EPFL, led by Professor Kumar Agrawal, has developed a scalable technique to create porous graphene membranes that selectively filter CO₂ from gas mixtures. Their approach slashes ...

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

The research team designed a beta-cyclodextrin (βCD) modified graphene oxide (GO-βCD) membrane with nanoscale channels that selectively retain PFAS while allowing water to pass through. PFAS, commonly ...

Monash University's team, led by Ph.D. candidate Eubert Mahofa, has designed a modified graphene membrane that selectively stops PFAS chains while allowing water to pass through freely.

A 2D mechanically interlocked polymer mimicking chainmail shows high flexibility and stiffness, offering promise for lightweight protective and smart armor systems. (Nanowerk News) Researchers at ...

A recent research study has successfully merged two cutting-edge 3D tissue engineering strategies - 3D polymeric scaffolds and 3D neuronal spheroids - to create a highly advanced model for studying ...