(Press-News.org) Membrane separation technology offers great potential due to its low energy consumption and continuous operation availability. Metal-organic frameworks (MOFs) are promising in separation membranes due to their abundant species, high porosity, and precise regulation of pore architectures.
Recently, a research group led by Prof. YANG Weishen and Assoc. Prof. PENG Yuan from the Dalian Institute of Chemical Physics (DICP) of the Chinese Academy of Sciences (CAS) has proposed a new strategy of modular customization and non-destructive regulation of MOFs for efficient membrane separations.
This work was published in Angewandte Chemie International Edition on Oct. 16.
The researchers proposed a strategy to modularize custom defect-free MOF separation membranes. The membrane structure consisted of two parallel modules. One was a discrete MOF module based on the characteristics of heterogeneous mutually reinforcing nuclei, which led to the implementation of molecular mass transfer and separation by exploiting the intrinsic pore structure. The other was the highly cross-linked, ultra-low permeability polyamide module formed by the confined interface polymerization operation, which was responsible for the comprehensive blockade of defects between MOF modules.
Guided by this strategy, the MOF module could be randomly replaced to customize the corresponding MOF separation membrane, and high-performance MOF separation membranes could be rapidly produced. With the modified post-synthesis strategy, the MOF module skeleton in the membrane was controlled without loss and the separation accuracy was doubled.
The researchers selected four MOFs with different pore/channel sizes and functionalities for batch fabrication of defect-free MOF membranes. Each membrane fully displayed the separation potential according to the MOF pore size.
Among them, the NH2-Zn2Bim4 membrane exhibited a high H2/CO2 mixture separation factor of 1656 and H2 permeability of 964 gas permeation unit. Taking advantage of this strategy, the membrane performance could be further enhanced via application-oriented post-synthetic ligand exchange. The H2/CO2 selectivity of the regulated membrane was approximately 200% higher than that of the original membrane.
"This strategy provides a tractable route to customize a myriad of high-performance membranes to meet different separation requirements," said Prof. YANG.
END
Researchers propose MOF modular customization strategy for efficient membrane separations
2023-11-14
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