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Novel CO<sub>2</sub>-philic porous organic polymers synthesized in water: a leap towards eco-sustainability
Riccardo Mobili 
,
YUE WU,
Charl Xavier Bezuidenhout ,
Sonia La Cognata ,
Silvia Bracco ,
Mariolino Carta,
Valeria Amendola
,
YUE WU,
Charl Xavier Bezuidenhout ,
Sonia La Cognata ,
Silvia Bracco ,
Mariolino Carta,
Valeria Amendola
RSC Sustainability, Volume: 2, Issue: 11, Pages: 3345 - 3352
Swansea University Authors: YUE WU, Mariolino Carta
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DOI (Published version): 10.1039/d4su00479e
Abstract
We introduce two novel keto-enamine-linked porous organic polymers (POPs) distinguished by the presence of methyl or ethyl groups in their triamine precursors. These innovative POPs can be synthesized efficiently in water under mild conditions, utilizing starting materials that can be prepared on a...
| Published in: | RSC Sustainability |
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| ISSN: | 2753-8125 |
| Published: |
Royal Society of Chemistry (RSC)
2024
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa68021 |
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2024-10-18T10:00:38Z |
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| last_indexed |
2025-02-20T11:07:29Z |
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2025-02-19T14:21:47.8773052 v2 68021 2024-10-18 Novel CO<sub>2</sub>-philic porous organic polymers synthesized in water: a leap towards eco-sustainability a0ecf03ae879c40cd3740391e4af4f62 YUE WU YUE WU true false 56aebf2bba457f395149bbecbfa6d3eb Mariolino Carta Mariolino Carta true false 2024-10-18 We introduce two novel keto-enamine-linked porous organic polymers (POPs) distinguished by the presence of methyl or ethyl groups in their triamine precursors. These innovative POPs can be synthesized efficiently in water under mild conditions, utilizing starting materials that can be prepared on a gram scale through well-established procedures. Unlike most CO2-philic POPs, which often require organic solvents, high temperatures, catalysts, additives, or hydrothermal equipment, these new polymers are synthesized in pure water at a relatively low temperature (70 °C) without any catalysts or additives and using common glassware. The N-rich composition of these porous organic polymers also contributes to their high adsorption selectivity for CO2 over N2, as calculated with the IAST method at 298 K. This combination of environmentally friendly synthesis, high yield, and superior adsorption properties positions these novel POPs as promising candidates for greener carbon capture technologies based on solid sorbents. Journal Article RSC Sustainability 2 11 3345 3352 Royal Society of Chemistry (RSC) 2753-8125 14 10 2024 2024-10-14 10.1039/d4su00479e COLLEGE NANME COLLEGE CODE Swansea University Other VA, SLC, RM acknowledge the Cariplo Foundation (MOCA project, grant no. 2019-2090) for financial support. VA and SLC also acknowledge the support from the Ministero dell’Università e della Ricerca (MUR) and the University of Pavia through the program “Dipartimenti di Eccellenza 2023–2027”. SB acknowledges Lombardy Region for ‘‘Enhancing Photosynthesis’’ grant (2021–2024) for the financial support. 2025-02-19T14:21:47.8773052 2024-10-18T10:32:24.5114397 Faculty of Science and Engineering School of Engineering and Applied Sciences - Chemistry Riccardo Mobili 0000-0003-4451-4364 1 YUE WU 2 Charl Xavier Bezuidenhout 0000-0002-9956-6279 3 Sonia La Cognata 0000-0002-7393-802x 4 Silvia Bracco 0000-0002-2575-6424 5 Mariolino Carta 6 Valeria Amendola 0000-0001-5219-6074 7 68021__32623__b9e9c5d232a2444d90de963c3c45142e.pdf D4SU00479E.pdf 2024-10-18T10:32:24.5110890 Output 1238002 application/pdf Version of Record true © 2024 The Author(s). This article is licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported Licence. true eng https://creativecommons.org/licenses/by-nc/3.0/ |
| title |
Novel CO<sub>2</sub>-philic porous organic polymers synthesized in water: a leap towards eco-sustainability |
| spellingShingle |
Novel CO<sub>2</sub>-philic porous organic polymers synthesized in water: a leap towards eco-sustainability YUE WU Mariolino Carta |
| title_short |
Novel CO<sub>2</sub>-philic porous organic polymers synthesized in water: a leap towards eco-sustainability |
| title_full |
Novel CO<sub>2</sub>-philic porous organic polymers synthesized in water: a leap towards eco-sustainability |
| title_fullStr |
Novel CO<sub>2</sub>-philic porous organic polymers synthesized in water: a leap towards eco-sustainability |
| title_full_unstemmed |
Novel CO<sub>2</sub>-philic porous organic polymers synthesized in water: a leap towards eco-sustainability |
| title_sort |
Novel CO<sub>2</sub>-philic porous organic polymers synthesized in water: a leap towards eco-sustainability |
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a0ecf03ae879c40cd3740391e4af4f62 56aebf2bba457f395149bbecbfa6d3eb |
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a0ecf03ae879c40cd3740391e4af4f62_***_YUE WU 56aebf2bba457f395149bbecbfa6d3eb_***_Mariolino Carta |
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YUE WU Mariolino Carta |
| author2 |
Riccardo Mobili YUE WU Charl Xavier Bezuidenhout Sonia La Cognata Silvia Bracco Mariolino Carta Valeria Amendola |
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Journal article |
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RSC Sustainability |
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2 |
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11 |
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3345 |
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2024 |
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Swansea University |
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2753-8125 |
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10.1039/d4su00479e |
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Royal Society of Chemistry (RSC) |
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We introduce two novel keto-enamine-linked porous organic polymers (POPs) distinguished by the presence of methyl or ethyl groups in their triamine precursors. These innovative POPs can be synthesized efficiently in water under mild conditions, utilizing starting materials that can be prepared on a gram scale through well-established procedures. Unlike most CO2-philic POPs, which often require organic solvents, high temperatures, catalysts, additives, or hydrothermal equipment, these new polymers are synthesized in pure water at a relatively low temperature (70 °C) without any catalysts or additives and using common glassware. The N-rich composition of these porous organic polymers also contributes to their high adsorption selectivity for CO2 over N2, as calculated with the IAST method at 298 K. This combination of environmentally friendly synthesis, high yield, and superior adsorption properties positions these novel POPs as promising candidates for greener carbon capture technologies based on solid sorbents. |
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2024-10-14T05:23:11Z |
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11.089572 |