Abstract
Organic-inorganic materials comprising CO 2-philic components may yield superior CO 2 transport properties and good CO 2/H 2 gas selectivity. We report that a fine balance in size heterogeneity in the silicon-based structures is essential and a mixture of sizes up to 50 nm surrounded by 5–15 nm silicon-based nanostructures is the preferred inorganic phase morphology that yields optimal nanohybrid membranes. The combination of optimal synthesis conditions i.e. water/silicon ratio, condensation and ozone pre-treatment durations yields a nanohybrid membrane with a CO 2 permeability of 2000 Barrer while achieving a CO 2/H 2 selectivity of 11. The findings of this work are important for the design of gas separation membranes using green materials.
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