Journal of Polymer Science Part B: Polymer Physics, Vol.55, No.10, 778-788, 2017
Influence of the Film-Forming Process on the Nanostructuration of Pebax (R)/1-Ethyl-3-Methylimidazolium Triflate Ionic Liquid: Consequences on the Thermal, Mechanical, Gas, and Water Transport Properties
1-Ethyl-3-methylimidazolium triflate ionic liquid (IL) was incorporated in Pebax (R) MV 3000 copolymer through solvent cast (SC) or melt blending (MB) for composition from 0 to 30 wt % IL. The morphology was investigated by small angle neutron scattering, transmission electron microscopy, and differential scanning calorimetry. The SC copolymer film exhibited a lower mean correlation distance (D=87 angstrom) and smoother transition between the rigid and soft phases in comparison with the MB film (D=103 angstrom). By dissolving in the copolymer soft phase, IL acted as a plasticizer, impeded soft segments crystallization and led to linear increase of D. The differences observed in morphology as a function of the film process impacted the mechanical and gas transport properties: below 20 wt % IL, all SC films sustained thermomechanical properties up to 120 degrees C and exhibited lower permeability than MB films. IL adding made permeability decrease up to 60%, depending on the gas nature and IL amount. Hydration of the films was investigated by sorption and SANS analyses. The impact of water uptake on swelling was similar for all membranes whereas water diffusion depended on the film morphologies and IL amount. Interesting mechanical and transport properties were obtained for IL content up to 20 wt %. (c) 2017 Wiley Periodicals, Inc.
Keywords:copolymer;gas permeability;gas permeation;hydration;hydrophilic polymers;ionic liquid;modulus;morphology;thermal properties