Litcius/Paper detail

Covalent organic frameworks based membranes for separation of azeotropic solvent mixtures by pervaporation

Kornkamol Banjerdteerakul, Peng Hao, Kang Li

2023Journal of Membrane Science33 citationsDOIOpen Access PDF

Abstract

Pervaporation of organic-organic mixtures has shown great potential as a replacement for conventional distillation processes, particularly when dealing with azeotropes and liquids with similar boiling points that are difficult to separate. However, the lack of high-performing membranes that can consistently provide reliable selectivity and high production rates has been a major hurdle in this field. Here, we used an in-situ growth method to prepare two prototypes of imine-linked COFs, i.e., COF-LZU1 and COF-300 membranes for separating azeotropic mixtures of polar/non-polar solvent, i.e., acetone/n-hexane, acetone/cyclohexane and methanol/benzene. The composite membranes comprising a continuous and defect-free COF layer on a ceramic hollow fibre substrate demonstrate high solvent fluxes of acetone and methanol, up to 20.0 and 4.9 kg m−2h−1, respectively. The preferential permeation of polar solvents through polar imine-linked nanochannels leads to a high separation factor of the studied mixtures: 30 for acetone/n-hexane, 13.4 for acetone/cyclohexane and 4.3 for methanol/benzene systems. Combined with good stability in solvent systems, our results have proved a technical feasibility of using COF-based membranes for separation of azeotropic solvent mixtures.

Topics & Concepts

PervaporationAcetoneMembraneCyclohexaneChemistrySolventAzeotropeChemical engineeringMethanolExtractive distillationHexanePermeationDistillationOrganic chemistryEngineeringBiochemistryCovalent Organic Framework ApplicationsMembrane Separation and Gas TransportMetal-Organic Frameworks: Synthesis and Applications