Journal article
Highly permeable membrane materials for CO2 capture
Q Fu, A Halim, J Kim, JMP Scofield, PA Gurr, SE Kentish, GG Qiao
Journal of Materials Chemistry A | Published : 2013
DOI: 10.1039/c3ta13066e
Abstract
The release of large quantities of CO2 into the atmosphere has been linked to global warming and climate anomalies. Membrane processes offer a potentially viable energy-saving alternative for CO2 capture in comparison with conventional technologies such as amine absorption. However, gas separation membranes that are currently available have insufficiently high permeance (flux) for large scale applications such as the treatment of high volume flue gas with low concentration of CO2. Here we demonstrate a class of thin film composite (TFC) membranes, consisting of a high molecular weight amorphous poly(ethylene oxide)/poly(ether-block-amide) (HMA-PEO/Pebax® 2533) selective layer and a highly pe..
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Grants
Awarded by Australian Research Council under the Future Fellowship
Awarded by Australian Research Council Super Science Fellowship
Funding Acknowledgements
The authors acknowledge the funding provided by the Australian Government through the CRC program to support this research. The authors also acknowledge the Australian Research Council under the Future Fellowship (FT110100411, G. G. Q.). Q. Fu is the recipient of an Australian Research Council Super Science Fellowship (FS110200025) and the Australia-China Emerging Future Leaders in Low Emissions Coal Technology Fellowship. Q. Fu also wishes to acknowledge the University of Melbourne's 2013 Early Career Researcher Grant (Q. Fu).