期刊
SEPARATION AND PURIFICATION TECHNOLOGY
卷 239, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.seppur.2020.116519
关键词
UiO-66-FEI@[bmim](Tf2N]; Interfacial compatibility; Mixed matrix membrane; Gas separation performance
资金
- Science and Technology Plan Projects of Harbin [MJ20140055]
- Central Guidance for Local Science and Technology Development Program [ZY17C10]
This study demonstrated a new method for simultaneously improving the interfacial morphology and gas separation properties of mixed matrix membrane by designing a new type of nanocomposite filler (UiO-66-PEI@[bmim]Tf2N]). Nano-sized UiO-66 particle was post-synthetically modified with branched polyethyleneimine (PEI) and then was decorated with ionic liquid. The abundant amino groups in UiO-66-PEI improve the gas separation properties of the MMM due to the affinity between PEI and CO2. The ionic liquid acts as a lubricant agent, which is coated on the crystal surface improves the interface morphology of the MMM. Compared to pristine 6FO and MOF/6FO membrane, MOF@IL/6FO membrane has higher gas separation performance. Characterization and gas separation results indicated the UiO-66-PEI@ILs particles were homogeneous dispersed in 6FDA-ODA and promoted CO2 transport by reversible reaction with amine groups. Consequently, the membrane sample containing 15 wt% loading of the UiO-66-PEI@[bmini][Tf2N] filler displayed an optimum CO2/CH4 selectivity of 59.99 for CO2 and CH4 mixture gas.
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