Buckybowl polymers: synthesis of corannulene-containing polymers through post-polymerization modification strategy
In this study, we explore the synthesis of methacrylate polymers carrying buckybowl corannulene as the polymer side-chain. For this, a general reactive scaffold, poly(glycidyl methacrylate) (PGMA), was prepared through an atom transfer radical polymerization process. The glycidyl units of this polym...
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sg-ntu-dr.10356-1601962023-12-11T15:34:32Z Buckybowl polymers: synthesis of corannulene-containing polymers through post-polymerization modification strategy Barát, Viktor Eom, Taejun Khan, Anzar Stuparu, Mihaiela Corina School of Physical and Mathematical Sciences Science::Chemistry Epoxy Click Chemistry Thiol-Epoxy In this study, we explore the synthesis of methacrylate polymers carrying buckybowl corannulene as the polymer side-chain. For this, a general reactive scaffold, poly(glycidyl methacrylate) (PGMA), was prepared through an atom transfer radical polymerization process. The glycidyl units of this polymer could be subjected to a nucleophilic ring-opening reaction with mercaptocorannulene. The ring-opening reaction produced a reactive secondary hydroxyl group. These sites could be used to anchor alkyl chains through an esterification reaction. Alternatively, the post-polymerization functionalization could be carried out in one step albeit in a random fashion using two different thiol molecules. Here, the incorporation of an electron-rich thienothiophene moiety is demonstrated along with electron-deficient corannulenes in the polymer chain. The PGMA homopolymer could also be replaced with a random copolymer of methyl methacrylate. In some cases, the ring-opening reaction is carried out only partially to retain the reactive epoxide groups in the molecular structure, which enables further functionalization to alter polymer solubility or allow for intermolecular crosslinking of the structure to obtain thick polymer films. In essence, various simple synthetic strategies to corannulene-encoded and reactive/functionalizable polymers are established in this work. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Nanyang Technological University Financial support from the Ministry of Education Singapore under the AcRF Tier 1 (2019-T1-002-066) (RG106/19) (2018-T1-001-176) (RG18/18); Agency for Science, Technology and Research (A*STAR)-AME IRG A1883c0006; and NTU (04INS000171C230) is gratefully acknowledged. This research was also funded by National Research Foundation of Korea grant funded by the Korean government (MSIP) (NRF18R1D1A1B07048527). 2022-07-14T08:03:57Z 2022-07-14T08:03:57Z 2021 Journal Article Barát, V., Eom, T., Khan, A. & Stuparu, M. C. (2021). Buckybowl polymers: synthesis of corannulene-containing polymers through post-polymerization modification strategy. Polymer Chemistry, 12(36), 5209-5216. https://dx.doi.org/10.1039/D1PY00664A 1759-9954 https://hdl.handle.net/10356/160196 10.1039/D1PY00664A 36 12 5209 5216 en 2019-T1-002-066 RG106/19 2018-T1-001-176 RG18/18 A1883c0006 04INS000171C230 Polymer Chemistry © 2021 The Royal Society of Chemistry. 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/10.1039/D1PY00664A. application/pdf |
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Science::Chemistry Epoxy Click Chemistry Thiol-Epoxy Barát, Viktor Eom, Taejun Khan, Anzar Stuparu, Mihaiela Corina Buckybowl polymers: synthesis of corannulene-containing polymers through post-polymerization modification strategy |
| description |
In this study, we explore the synthesis of methacrylate polymers carrying buckybowl corannulene as the polymer side-chain. For this, a general reactive scaffold, poly(glycidyl methacrylate) (PGMA), was prepared through an atom transfer radical polymerization process. The glycidyl units of this polymer could be subjected to a nucleophilic ring-opening reaction with mercaptocorannulene. The ring-opening reaction produced a reactive secondary hydroxyl group. These sites could be used to anchor alkyl chains through an esterification reaction. Alternatively, the post-polymerization functionalization could be carried out in one step albeit in a random fashion using two different thiol molecules. Here, the incorporation of an electron-rich thienothiophene moiety is demonstrated along with electron-deficient corannulenes in the polymer chain. The PGMA homopolymer could also be replaced with a random copolymer of methyl methacrylate. In some cases, the ring-opening reaction is carried out only partially to retain the reactive epoxide groups in the molecular structure, which enables further functionalization to alter polymer solubility or allow for intermolecular crosslinking of the structure to obtain thick polymer films. In essence, various simple synthetic strategies to corannulene-encoded and reactive/functionalizable polymers are established in this work. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Barát, Viktor Eom, Taejun Khan, Anzar Stuparu, Mihaiela Corina |
| format |
Article |
| author |
Barát, Viktor Eom, Taejun Khan, Anzar Stuparu, Mihaiela Corina |
| author_sort |
Barát, Viktor |
| title |
Buckybowl polymers: synthesis of corannulene-containing polymers through post-polymerization modification strategy |
| title_short |
Buckybowl polymers: synthesis of corannulene-containing polymers through post-polymerization modification strategy |
| title_full |
Buckybowl polymers: synthesis of corannulene-containing polymers through post-polymerization modification strategy |
| title_fullStr |
Buckybowl polymers: synthesis of corannulene-containing polymers through post-polymerization modification strategy |
| title_full_unstemmed |
Buckybowl polymers: synthesis of corannulene-containing polymers through post-polymerization modification strategy |
| title_sort |
buckybowl polymers: synthesis of corannulene-containing polymers through post-polymerization modification strategy |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160196 |
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1787136448431915008 |