Bhunia, Subhajit, Bhanja, Piyali, Das, Sabuj Kanti, Sen, Tapas ORCID: 0000-0002-0463-7485 and Bhaumik, Asim (2017) Triazine containing N-rich microporous organic polymers for CO2 capture and unprecedented CO2/N2 selectivity. Journal of Solid State Chemistry, 247 . pp. 113-119. ISSN 0022-4596
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Official URL: http://dx.doi.org/10.1016/j.jssc.2017.01.001
Abstract
Targeted synthesis of microporous adsorbents for CO2 capture and storage is very challenging in the context of remediation from green house gases. Herein we report two novel N-rich microporous networks SB-TRZ-CRZ and SB-TRZ-TPA by extensive incorporation of triazine containing tripodal moiety in the porous polymer framework. These materials showed excellent CO2 storage capacities: SB-TRZ-CRZ displayed the CO2 uptake capacity of 25.5 wt% upto 1 bar at 273 K and SB-TRZ-TPA gave that of 16 wt% under identical conditions. The substantial dipole quadruple interaction between network (polar triazine) and CO2 boosts the selectivity for CO2/N2. SB-TRZ-CRZ has this CO2/N2 selectivity ratio of 377, whereas for SB-TRZ-TPA it was 97. Compared to other porous polymers, these materials are very cost effective, scalable and very promising material for clean energy application and environmental issues.
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