The measures to reduce greenhouse gas emissions, gains more importance in the current scenario. Processes involving membrane separation are an important method for CO2 capture which are widely used. In order to improve the selective efficient in the gas separation this paper studies the development and synthesis of composite polymeric membranes that will be able to increase the permeability using ionic liquids in your structure, which have high CO2 solubility and selectivity. The ionic liquid synthesis was obtained using imidazolium cation and the NTf2(-) anion, on 3 steps reactions. The composite polymeric membranes were synthesized by different types of commercial polymers, PEBAX1657, PEBAX2533 and PU 1185A10; with 0 percent, 20 percent and 60 percent (wt.) concentrations of ionic liquid. The nuclear magnetic resonance (NMR) technique for 1H and 13C was used to validate the ionic liquid structure. The composite membrane characterizations were obtained by those techniques: scanning electron microscope (SEM), thermogravimetric analysis (TGA) and Fourier transform infrared (FTIR). In the presence of ionic liquid, the selectivity of CO2/N2 increased for the PU and PEBAX2533 membranes, and the permeability of CO2 increased for the PU and PEBAX1657 membranes.