From supramolecular organic cages to porous covalent organic frameworks for enhancing iodine adsorption capability by fully exposed nitrogen-rich sites
In order to overcome the limitations of supramolecular organic cages for their incomplete accessibility of active sites in the solid state and uneasy recyclability in liquid solution, herein a nitrogen-rich organic cage is rationally linked into framework systems and four isoreticular covalent organ...
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sg-ntu-dr.10356-1703312024-03-22T15:31:43Z From supramolecular organic cages to porous covalent organic frameworks for enhancing iodine adsorption capability by fully exposed nitrogen-rich sites Cheng, Ke Li, Hailian Wang, Jia-Rui Li, Pei-Zhou Zhao, Yanli School of Chemistry, Chemical Engineering and Biotechnology Chemistry Covalent Organic Frameworks Iodine Adsorption In order to overcome the limitations of supramolecular organic cages for their incomplete accessibility of active sites in the solid state and uneasy recyclability in liquid solution, herein a nitrogen-rich organic cage is rationally linked into framework systems and four isoreticular covalent organic frameworks (COFs), that is, Cage-TFB-COF, Cage-NTBA-COF, Cage-TFPB-COF, and Cage-TFPT-COF, are successfully synthesized. Structure determination reveals that they are all high-quality crystalline materials derived from the eclipsed packing of related isoreticular two-dimensional frameworks. Since the nitrogen-rich sites usually have a high affinity toward iodine species, iodine adsorption investigations are carried out and the results show that all of them display an enhancement in iodine adsorption capacities. Especially, Cage-NTBA-COF exhibits an iodine adsorption capacity of 304 wt%, 14-fold higher than the solid sample packed from the cage itself. The strong interactions between the nitrogen-rich sites and the adsorbed iodine species are revealed by spectral analyses. This work demonstrates that, utilizing the reticular chemistry strategy to extend the close-packed supramolecular organic cages into crystalline porous framework solids, their inherent properties can be greatly exploited for targeted applications. Ministry of Education (MOE) Submitted/Accepted version This work was supported by the “Qilu Young Talent Scholar” program (11190088963032) of Shandong University, and the Ministry of Education Singapore under its Academic Research Funds (RG3/21 and MOET2EP10120‐0003). 2023-09-07T04:25:45Z 2023-09-07T04:25:45Z 2023 Journal Article Cheng, K., Li, H., Wang, J., Li, P. & Zhao, Y. (2023). From supramolecular organic cages to porous covalent organic frameworks for enhancing iodine adsorption capability by fully exposed nitrogen-rich sites. Small, 19(34), 2301998-. https://dx.doi.org/10.1002/smll.202301998 1613-6810 https://hdl.handle.net/10356/170331 10.1002/smll.202301998 37162443 2-s2.0-85159048181 34 19 2301998 en RG3/21 MOET2EP10120‐0003 Small © 2023 Wiley-VCH GmbH. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1002/anie.202311082. application/pdf |
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Chemistry Covalent Organic Frameworks Iodine Adsorption |
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Chemistry Covalent Organic Frameworks Iodine Adsorption Cheng, Ke Li, Hailian Wang, Jia-Rui Li, Pei-Zhou Zhao, Yanli From supramolecular organic cages to porous covalent organic frameworks for enhancing iodine adsorption capability by fully exposed nitrogen-rich sites |
| description |
In order to overcome the limitations of supramolecular organic cages for their incomplete accessibility of active sites in the solid state and uneasy recyclability in liquid solution, herein a nitrogen-rich organic cage is rationally linked into framework systems and four isoreticular covalent organic frameworks (COFs), that is, Cage-TFB-COF, Cage-NTBA-COF, Cage-TFPB-COF, and Cage-TFPT-COF, are successfully synthesized. Structure determination reveals that they are all high-quality crystalline materials derived from the eclipsed packing of related isoreticular two-dimensional frameworks. Since the nitrogen-rich sites usually have a high affinity toward iodine species, iodine adsorption investigations are carried out and the results show that all of them display an enhancement in iodine adsorption capacities. Especially, Cage-NTBA-COF exhibits an iodine adsorption capacity of 304 wt%, 14-fold higher than the solid sample packed from the cage itself. The strong interactions between the nitrogen-rich sites and the adsorbed iodine species are revealed by spectral analyses. This work demonstrates that, utilizing the reticular chemistry strategy to extend the close-packed supramolecular organic cages into crystalline porous framework solids, their inherent properties can be greatly exploited for targeted applications. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Cheng, Ke Li, Hailian Wang, Jia-Rui Li, Pei-Zhou Zhao, Yanli |
| format |
Article |
| author |
Cheng, Ke Li, Hailian Wang, Jia-Rui Li, Pei-Zhou Zhao, Yanli |
| author_sort |
Cheng, Ke |
| title |
From supramolecular organic cages to porous covalent organic frameworks for enhancing iodine adsorption capability by fully exposed nitrogen-rich sites |
| title_short |
From supramolecular organic cages to porous covalent organic frameworks for enhancing iodine adsorption capability by fully exposed nitrogen-rich sites |
| title_full |
From supramolecular organic cages to porous covalent organic frameworks for enhancing iodine adsorption capability by fully exposed nitrogen-rich sites |
| title_fullStr |
From supramolecular organic cages to porous covalent organic frameworks for enhancing iodine adsorption capability by fully exposed nitrogen-rich sites |
| title_full_unstemmed |
From supramolecular organic cages to porous covalent organic frameworks for enhancing iodine adsorption capability by fully exposed nitrogen-rich sites |
| title_sort |
from supramolecular organic cages to porous covalent organic frameworks for enhancing iodine adsorption capability by fully exposed nitrogen-rich sites |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170331 |
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1794549368323309568 |