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Abstract
Designed molecular-sized cavities is key to efficient transport, storage, and separation of small molecules. Herein, we report that the adsorption properties of void-containing polymers were altered by changing linker units for condensation with hexa-aminated trinaphtho[3.3.3]propellane as the partner. Aldehyde linkers resulted in formation of N=C–NH perimidine-like segments in polymer structures and showed higher selectivity for alkanes over carbon dioxide than network polymers with NH–B– NH moieties derived from boronic esters. Use of 1,3,5-trifunctionalized linkers, which are expected to give smaller cavities, led to a network polymer containing NH–B–NH moieties exhibiting size exclusion of n-butane, while fairly retaining adsorption capacity for ethane and carbon dioxide.
Supplementary materials
Title
Supporting Information
Description
Synthetic procedures, NMR and FT-IR spectra, Powder X-ray diffraction analysis, FE-SEM images, TGA and Gas adsorption measurement, and Theoretical calculations
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