Cyclotriphosphazene and tricarbazole based microporous hyper-crosslinked conjugated polymer for CCUS: Exceptional CO2 selectivity and high capacity CO2, CH4, and H2 capture

The most significant point in the synthesis of a hyper-crosslinked polymer with high CO2 adsorption and high selectivity properties to be used in carbon capture, utilization and storage (CCUS) is to choose the most compatible core and linker. These should allow the polymer to be synthesized in a sin...

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Published in:Journal of CO2 utilization 2023-01, Vol.67, p.102304, Article 102304
Main Authors: Sadak, Ali Enis, Cucu, Evren, Hamur, Beyza, Ün, İlker, Altundas, Ramazan
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Language:English
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Carbazole
Friedel–Crafts
Hypercrosslinked polymers
Phosphazene
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cited_by cdi_FETCH-LOGICAL-c274t-b86d38a3fbab2905b948a597d27a5f6f574c9014ee7e80a0d85691fa905c9a213
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description The most significant point in the synthesis of a hyper-crosslinked polymer with high CO2 adsorption and high selectivity properties to be used in carbon capture, utilization and storage (CCUS) is to choose the most compatible core and linker. These should allow the polymer to be synthesized in a single step under the mildest conditions with the highest yield. Here, the synthesis of microporous hyper-crosslinked conjugated polymer EBE-06 was achieved by a single step reaction of hexachlorocyclotriphosphazene and 1,3,5-tri(9H-carbazol-9-yl)benzene with an AlCl3 catalyzed Friedel-Crafts reaction. After being characterized using spectroscopic and analytical techniques, the gas uptake (CO2, CH4, O2, CO and H2) and selectivity properties (CO2/N2, CO2/CH4, CO2/O2 and CO2/CO) of EBE-06 were extensively tested at three different temperatures and up to 1.1 bar pressures. The hyper-crosslinked conjugated polymer EBE-06, formed by the bidirectional bonding of tricarbazole molecules to phosphazene, has a high surface area up to 1987 m2/g and a microporosity ratio up to 82%. In addition, 109 cm3/g CO2 adsorption and 33 cm3/g CH4 adsorption at 273 K and 220 cm3/g H2 adsorption was obtained at 77 K. Exceptional selectivity values were calculated for 05/95 CO2/N2 and reached 442 at 273 K. In addition, the calculation for 05/95 CO2/CH4 resulted in 121 at 273 K. Most importantly, 15/85 CO2/N2 selectivity reached 82 at 298 K, which shows that EBE-06 is an excellent candidate for CCUS processes. [Display omitted] •Cyclotriphosphazene and tricarbazole based microporous hyper-crosslinked conjugated polymer was obtained.•EBE-06 was obtained with a specific surface area of 1987 m2/g and a micropore ratio of 82%.•Exceptional CO2/N2 selectivity from the IAST calculations reaching 442 with 109 cm3/g CO2 adsorption.•220 cm3/g H2 adsorption and CO2/CH4 selectivity up to 121 with 33 cm3/g CH4 adsorption.•The first example of using hexachlorocyclotriphosphazene molecule with carbazole molecule in the synthesis of HCPs.
doi_str_mv 10.1016/j.jcou.2022.102304
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Exceptional selectivity values were calculated for 05/95 CO2/N2 and reached 442 at 273 K. In addition, the calculation for 05/95 CO2/CH4 resulted in 121 at 273 K. Most importantly, 15/85 CO2/N2 selectivity reached 82 at 298 K, which shows that EBE-06 is an excellent candidate for CCUS processes. 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Exceptional selectivity values were calculated for 05/95 CO2/N2 and reached 442 at 273 K. In addition, the calculation for 05/95 CO2/CH4 resulted in 121 at 273 K. Most importantly, 15/85 CO2/N2 selectivity reached 82 at 298 K, which shows that EBE-06 is an excellent candidate for CCUS processes. 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These should allow the polymer to be synthesized in a single step under the mildest conditions with the highest yield. Here, the synthesis of microporous hyper-crosslinked conjugated polymer EBE-06 was achieved by a single step reaction of hexachlorocyclotriphosphazene and 1,3,5-tri(9H-carbazol-9-yl)benzene with an AlCl3 catalyzed Friedel-Crafts reaction. After being characterized using spectroscopic and analytical techniques, the gas uptake (CO2, CH4, O2, CO and H2) and selectivity properties (CO2/N2, CO2/CH4, CO2/O2 and CO2/CO) of EBE-06 were extensively tested at three different temperatures and up to 1.1 bar pressures. The hyper-crosslinked conjugated polymer EBE-06, formed by the bidirectional bonding of tricarbazole molecules to phosphazene, has a high surface area up to 1987 m2/g and a microporosity ratio up to 82%. In addition, 109 cm3/g CO2 adsorption and 33 cm3/g CH4 adsorption at 273 K and 220 cm3/g H2 adsorption was obtained at 77 K. Exceptional selectivity values were calculated for 05/95 CO2/N2 and reached 442 at 273 K. In addition, the calculation for 05/95 CO2/CH4 resulted in 121 at 273 K. Most importantly, 15/85 CO2/N2 selectivity reached 82 at 298 K, which shows that EBE-06 is an excellent candidate for CCUS processes. [Display omitted] •Cyclotriphosphazene and tricarbazole based microporous hyper-crosslinked conjugated polymer was obtained.•EBE-06 was obtained with a specific surface area of 1987 m2/g and a micropore ratio of 82%.•Exceptional CO2/N2 selectivity from the IAST calculations reaching 442 with 109 cm3/g CO2 adsorption.•220 cm3/g H2 adsorption and CO2/CH4 selectivity up to 121 with 33 cm3/g CH4 adsorption.•The first example of using hexachlorocyclotriphosphazene molecule with carbazole molecule in the synthesis of HCPs.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.jcou.2022.102304</doi><oa>free_for_read</oa></addata></record>
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subjects Carbazole
Friedel–Crafts
Hypercrosslinked polymers
Phosphazene
title Cyclotriphosphazene and tricarbazole based microporous hyper-crosslinked conjugated polymer for CCUS: Exceptional CO2 selectivity and high capacity CO2, CH4, and H2 capture
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