The graphene membrane, about the size of a fingernail, is less than 1 nanometer thick. (The thinnest existing membranes are about 20 nanometers thick.) ...

Graphene's ever-growing list of remarkable properties has seen many wide-reaching potential applications for the wonder material proposed, but actual demonstrations of real-world uses are still ...

Desalination with nanoporous graphene membrane Date: March 25, 2015 Source: Oak Ridge National Laboratory Summary: Desalination is an energy-intensive process, which concerns those wanting to ...

The new beta-cyclodextrin (βCD) modified graphene oxide (GO-βCD) membrane with nanoscale channels developed by the researchers at monash is a game changer for this.

Graphene membranes are excellent at separating gases because they can be engineered with pores just the right size to let CO 2 through while blocking larger molecules like nitrogen.

Chinese scientists have developed a breakthrough process that significantly improves the efficiency and environmental ...

Graphene membranes, on the other hand, require no heat input, and operate using simple pressure-driven filtration, significantly reducing energy consumption.

Graphene-based membranes are highly functional due to graphene’s lattice structure. They exhibit enhanced anti-fouling and antimicrobial activities, as well as contamination resistance. 1 Nano-porous ...

The high performance of these graphene membranes in capturing CO2, even from dilute gas streams, can significantly reduce the costs and energy requirements of carbon capture processes. This innovation ...

Traditional water filters struggle to remove smaller PFAS molecules, but a new Monash-designed filter changes that. Researchers at Monash University have developed a groundbreaking water filtration ...