期刊
NANOSCALE
卷 12, 期 33, 页码 17405-17410出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0nr04801a
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资金
- University of Edinburgh Chancellor's Fellowship
Membranes are crucial to lowering the huge energy costs of chemical separations. Whilst some promising polymers demonstrate excellent transport properties, problems of plasticisation and physical aging due to mobile polymer chains, amongst others, prevent their exploitation in membranes for industrial separations. Here we reveal that molecular interactions between a polymer of intrinsic microporosity (PIM) matrix and a porous aromatic framework additive (PAF-1) can simultaneously address plasticisation and physical aging whilst also increasing gas transport selectivity. Extensive spectroscopic characterisation and control experiments involving two near-identical PIMs, one with methyl groups (PIM-EA(Me-2)-TB) and one without (PIM-EA(H-2)-TB), directly confirm the key molecular interaction as the adsoprtion of methyl groups from the PIM matrix into the nanopores of the PAF. This interaction reduced physical aging by 50%, suppressed polymer chain mobilities at high pressure and increased H(2)selectivity over larger gases such as CH(4)and N-2.
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