Fixed carrier membranes containing amino groups show attractive performance in CO2 separation for clean energy supply and greenhouse gas reduction. However, the separation performance of fixed carrier membranes at high feed pressure is limited by the facilitated transport ability of membranes as well as the CO2-induced plasticization. In this work, the tertiary amino group containing fixed carrier membranes were prepared by interfacial polymerization (IF) with hexane soluble trimesoyl chloride (TMC) and aqueous soluble 1,4-bis (3-aminopropyl) piperazine (DAPP), N-aminoethyl pipe wine (EAP) and 3,35cliamino-N-meLhylclipropylamine (DNMDAm). The results show that the membrane prepared with TMC and DAPP exhibits the highest CO2 separation performance clue to efficient CO2 facilitated transport and high plasticization resistance. Efficient facilitated transport of CO2 in the membrane is due to the high content of cyclic tertiary amino groups which possess high stoichiometric CO2 loading and high rate constant of amine-CO2 reaction. Moreover, high plasticization resistance of the membrane is attributed to the appropriate stiffness of polymer chains provided by IF The membrane prepared with TMC and DAPP shows promising applications in high-pressure fuel gas purification. (C) 2014 Elsevier B.V. All rights reserved.