Journal article
Hypercrosslinked additives for ageless gas-separation membranes
CH Lau, X Mulet, K Konstas, CM Doherty, MA Sani, F Separovic, MR Hill, CD Wood
Angewandte Chemie International Edition | Published : 2016
Abstract
The loss of internal pores, a process known as physical aging, inhibits the long-term use of the most promising gas-separation polymers. Previously we reported that a porous aromatic framework (PAF-1) could form a remarkable nanocomposite with gas-separation polymers to stop aging. However, PAF-1 synthesis is very onerous both from a reagent and reaction-condition perspective, making it difficult to scale-up. We now reveal a highly dispersible and scalable additive based on α,α′-dichloro-p-xylene (p-DCX), that inhibits aging more effectively, and crucially almost doubles gas-transport selectivity. These synergistic effects are related to the intimately mixed nanocomposite that is formed thou..
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Awarded by Science and Industry Endowment Fund
Funding Acknowledgements
Parts of this work were supported by the Science and Industry Endowment Fund, and the CSIRO MOF Platform Technology. M.R.H. acknowledges the CSIROOCE, and FT1300345. Dr. S. Mudie of the Australian Synchrotron is acknowledged for his contribution to SAXS/WAXS experiments.