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CO2 Separating Membranes Developed at Imperial Could Make Carbon Capture More Efficient

 August 31, 2018

The membrane, developed by researchers at Imperial College London performs better than traditional materials when used for carbon dioxide capture from power plants.

The membrane is made of a UV-responsive material and a polymer, which can absorb and release CO2 with the application of UV light. This is a less energy-intensive way to release the CO2, which would otherwise require the application of heat or pressure.

The composite material, developed by PhD student Nicholaus Prasetya and Dr Bradley Ladewig from the Department of Chemical Engineering at Imperial is the first of its kind. Initial research shows its ability to effectively separate carbon dioxide and nitrogen in post-combustion processes; for example treating flue gas from a power plant.

Dr Ladewig said: “Our previous work already showed that photo-responsive materials can be used as carbon dioxide sorbents, but this is really innovative - we have shown that it’s possible to make photo-responsive carbon dioxide separation membranes.”

This research has opened the door for further exploration of innovative applications for UV-responsive materials in the carbon capture and post-combustion stage of carbon capture and storage (CCS) processes. When CO2 is filtered more efficiently in these processes, the result is that less CO2 is released into the atmosphere and more can be stored for further use in other industries that have a demand for it. 

As an emerging area of research, further experimentation is required, but initial results are promising. An important element of the carbon capture and storage process, this work could lead to a new generation of more efficient, longer lasting, and cheaper to develop membranes.

The research is published here: A new and highly robust light-responsive Azo-UiO-66 for highly selective and low energy post-combustion CO2 capture and its application in a mixed matrix membrane for CO2/N2 separation, Journal of Materials Chemistry A (2018). (Carbon Capture Journal)

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