Published: January 06, 2019
Maryam Omidvar, Christopher M. Stafford, Haiqing Lin
Polymers with a strong size-sieving ability and superior H2/CO2 selectivity are of great interests for pre-combustion CO2 capture at 100 oC or above. Polyimides (such as Matrimid and 6FDA-durene) have been cross-linked using diamines and show superior H2/CO2 selectivity. However, these cross-linked polymers cannot be used for the pre-combustion CO2 capture because of the lack of thermal stability at 100 oC. Herein we demonstrate that commercial P84TM can be chemically cross-linked using 1,4-butanediamine (BuDA) to achieve robust H2/CO2 separation properties at 100 - 150 oC. The cross-linked P84 were thoroughly evaluated using Fourier transform infrared spectroscopy (FTIR), X-ray photoelectron spectroscopy (XPS), differential scanning calorimetry (DSC), and thermogravimetric analysis (TGA). The effect of the cross- linking time on the physical properties and H2/CO2 separation properties at various temperatures were determined and interpreted using a free volume model. An exemplary sample based on P84 crosslinked by BuDA for 6 h exhibits a H2 permeability of 28 Barrers (1 Barrer = 3.35 × 10-16 mol m/m2·s·Pa) and H2/CO2 selectivity of 14 at 100 oC, which is on the Robesons upper bound, indicating their potential for practical application.
Citation: Journal of Membrane Science
Pub Type: Journals
polyimide, membranes, crosslinking, separation, diamine
Created January 06, 2019, Updated February 06, 2019