Synthesis and CO(2)/N(2) Separation Performance Analysis of Mixed Matrix Membrane (MMM) Based on Different Bimetallic Metal-Organic Frameworks (Ni-Cu-MOF-74, Ni-Co-MOF-74, and Ni-Zn-MOF-74)

Polydimethylsiloxane (PDMS) is commonly used in gas-separation studies because of its high CO(2) permeability and stable mechanical properties. In this work, mixed matrix membranes (MMMs) were prepared by incorporating the bimetallic MOFs Ni-Cu-MOF-74, Ni-Co-MOF-74, and Ni-Zn-MOF-74 into a PDMS matrix. The membranes were fabricated by solution casting and characterized by SEM, XRD, FT-IR, and BET analyses, which confirmed uniform filler dispersion and the successful incorporation of the MOF-74 structures. Single-gas permeation tests showed clear performance improvements with MOF loading. The best results were obtained for the membrane containing 1 wt.% Ni-Cu-MOF-74, which reached a CO(2) permeability of 3188.25 Barrer and a CO(2)/N(2) selectivity of 35.10. The improvement is attributed to the accessible metal sites and high surface area provided by the MOF-74 framework, which enhanced adsorption-diffusion pathways for CO(2) transport. These results show that PDMS/MOF-74 mixed-matrix membranes are effective for CO(2)/N(2) separation, with Ni-Cu-MOF-74 achieving the highest performance.