Healing of microdefects in SSZ-13 membranes via filling with dye molecules and its effect on dry and wet CO2 separations
- Healing of microdefects in SSZ-13 membranes via filling with dye molecules and its effect on dry and wet CO2 separations
- 최낙원; Sungwon Hong; Dongjae Kim; Yanghwan Jeong; Eunjoo Kim; Jae Chil Jung; Jaewook Nam; Alex C. K. Yip; Jungkyu Choi
- Issue Date
- Chemistry of materials
- VOL 30, NO 10-3358
- It is quite challenging to avoid microdefect formation during hydrothermal growths and/or calcination processes, while manufacturing high-quality zeolite membranes in a reproducible manner. Even less than 1% of defects, which generally provide nonselective pathways, will considerably worsen the intrinsic, high molecular sieving-based separation performance of a continuous zeolite membrane. Herein, we propose a simple and reliable method for blocking defects using water-soluble dye molecules, which were originally used for the visualization of nonzeolitic, defective structures in a zeolite membrane. Because the dye molecules are similar to 1 nm in size, they cannot diffuse into the zeolitic pores and selectively access the defects. For the demonstration of dye-based defect healing, we chose a siliceous chabazite type SSZ-13 zeolite membrane (pore size = 0.37 x 0.42 nm(2)) with some degree of defects and investigated the effect of defect healing on the final CO2 separation performance. Because the defects were gradually filled by the dye molecules, both CO2/N-2 and CO2/CH4 separation performances were concomitantly increased. Intriguingly, the CO2 perm selectivity test with ternary mixtures including H2O vapor (the third largest component in the flue and natural/shale/bio gas streams) in the feed diminished CO2 separation performance. This could be ascribed to inhibited transport of the fast permeating species, here CO2, from the adsorbed H2O molecules on the dye-treated and water-friendly (relatively hydrophilic) membrane surface. On the contrary, the intact, siliceous (water-repelling or hydrophobic) SSZ-13 membranes showed improved CO2 perm selectivities in the presence of H2O vapor, seemingly due to defect blocking by the physisorbed H2O molecules.
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