%A M.J.B.G. Mohamed %A H.A. Mannan %A R. Nasir %A D.F. Mohshim %A H. Mukhtar %A A. Abdulrahman %A A. Ahmed %I John Wiley and Sons Inc. %V 137 %T Composite mixed matrix membranes incorporating microporous carbon molecular sieve as filler in polyethersulfone for CO2/CH4 separation %X Membrane technology has been considered a key factor for sustainable growth in high-efficiency gas separation. Current mixed matrix membranes (MMMs) technology is rising, but these membranes in the dense structure are having difficulties in operating at high pressures and scale up for commercialization. The purpose of this research is to synthesize composite MMMs (CMMMs) consisting of polyethersulfone (PES), carbon molecular sieve (CMS 1�5 wt ), and Novatex 2471 nonwoven fabric (support layer). The membranes' physical, chemical, and thermal properties were evaluated by different analytical equipment. The morphology of both PES and PES-CMS composite membranes had a porous and asymmetric structure, in which CMS was uniformly distributed in the polymer matrix. The thermal properties showed that the membranes were stable up to 350 °C with a single glass transition temperature. The functional groups in the membrane were confirmed by spectral analysis. The gas performance results showed that carbon dioxide permeance increased with increased CMS concentration and methane permeance decreased due to the hindering effect of CMS under similar operating conditions. The highest selectivity achieved was 12.774 using CMMM of 5 wt of CMS at 10 bar, which on average was 137.80, improved selectivity compared to pure PES membrane. The support layer was able to withstand high operating pressures and showed the ability to scale up. © 2019 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2020, 137, 48476. © 2019 Wiley Periodicals, Inc. %K Carbon dioxide; Chemical analysis; Chemical equipment; Composite membranes; Glass transition; Membrane technology; Microporosity; Molecular sieves; Nonwoven fabrics; Polymer matrix composites; Sieves; Spectrum analysis; Thermodynamic properties, Carbon molecular sieve; Gas separations; Mixed matrix membranes; Novatex 2471; Support layer, Gas permeable membranes %N 12 %R 10.1002/app.48476 %D 2020 %L scholars13327 %J Journal of Applied Polymer Science %O cited By 9