Recent progress in the design of advanced PEO-containing membranes for CO2 removal

Abstract Contemporary environmental problems in industrial gas production and purification have driven researchers to search for green, elegant and sustainable technologies to resolve these issues. To this end, membrane technology is a promising and environmentally friendly alternative separation technique for mitigation of carbon dioxide (CO 2 ) emissions in addition to gas purification for energy development (particularly from syngas, natural gas or flue gas streams). Nevertheless, traditional polymeric membranes have demonstrated insufficient capability for CO 2 removal because the performance of these membranes is primarily controlled by the diffusion of various gases based on their molecular sizes. Most recently, poly(ethylene oxide) (PEO) membranes have garnered growing interest because their performance for CO 2 removal can be elegantly controlled by the solubility of the different gases in the membranes. The PEO membranes have a high affinity towards CO 2 and have demonstrated simplicity in membrane fabrication. However, drawbacks such as a high crystallization tendency and a weak mechanical strength have curtailed its industrial application. Various strategies have been considered to overcome these drawbacks using structural design of polymers via copolymerization with additional rigid repeating segments, crosslinking and physical blending with other polymers to produce ultra-permeable PEO-based membranes for CO 2 separation. In this review, the state-of-the-art for PEO-containing membranes is evaluated alongside the benefits and shortcomings of various related methodologies. In addition, recent developments are reviewed in the fabrication of PEO-containing asymmetric and composite membranes with a thin separation layer. An assessment of the benefits and drawbacks of various approaches for fabrication of advanced PEO-containing membranes is highlighted, and future research directions in this field are also proposed.

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