Membranes with Molecular Gatekeepers for Efficient CO Capture and H Purification.

The urgent need for CO capture and hydrogen energy has attracted great attention owing to greenhouse gas emissions and global warming problems. Efficient CO capture and H purification with membrane technology will reduce greenhouse gas emissions and help reach a carbon-neutral society. Here, 4-sulfocalix[4]arene (SC), which has an intrinsic cavity, was embedded into the Matrimid membrane as a molecular gatekeeper for CO capture and H purification. The interactions between SC and the Matrimid polymer chains immobilize SC molecules into the interchain gaps of the Matrimid membrane, and the strong hydrogen and ionic bondings were able to form homogeneous mixed-matrix membranes. The incorporation of the SC molecular gatekeeper with exceptional molecular-sieving properties improved the gas separation performance of the mixed-matrix membranes. Compared with that of the Matrimid membrane, the CO permeability of the Matrimid-SC-3% membrane increased from 16.75 to 119.78 Barrer, the CO/N selectivity increased from 29.39 to 106.95, and the CO/CH selectivity increased from 29.91 to 140.92. Furthermore, when the permeability of H was increased to 172.20 Barrer, the H/N and H/CH selectivities reached approximately 153.75 and 202.59, respectively, which are far superior to those of most existing Matrimid-based materials. The mixed-matrix membranes also exhibited excellent long-term operation stability, with separation performance for several important gas pairs still overtaking the Robeson upper limit after aging for 400 days.