Unravelling the dynamic crosslinking mechanism in polyborosiloxane
This study offers a comprehensive investigation into the mechanism behind the dynamic crosslinking of polyborosiloxane (PBS). Despite this material being well known for over 70 years, the origin of PBS's unique viscoelastic properties has been a topic of debate in the literature. Through combin...
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sg-ntu-dr.10356-1712772023-10-18T04:09:57Z Unravelling the dynamic crosslinking mechanism in polyborosiloxane Kurkin, Anatoli Lekina, Yulia Bradley, David G. Seah, Geok Leng Tan, Kwan Wee Lipik, Vitali Hanna, John V. Zhang, Xin Tok, Alfred ling Yoong School of Materials Science and Engineering School of Physical and Mathematical Sciences Engineering::Materials Polyborosiloxane Dynamic Covalent Bonding This study offers a comprehensive investigation into the mechanism behind the dynamic crosslinking of polyborosiloxane (PBS). Despite this material being well known for over 70 years, the origin of PBS's unique viscoelastic properties has been a topic of debate in the literature. Through combined FTIR and solid-state 29Si and 11B MAS NMR analyses, this study provides evidence that the formation of Si–O–B dynamic covalent bonds, along with their associative exchange with neighboring hydroxyl-bearing species (free silanol, water, alcohol, etc.), drives the gelation and viscoelastic behavior of PBS. Results show no indication of hydrogen or dative bonding, instead the low energy barrier for formation and breakage of Si–O–B bonds allows for easy exchange at room temperature. Moreover, the study finds that the viscoelastic properties of PBS can be adjusted by the choice of boron B–O functionality, leading to n-functional dynamic crosslinking through Si–O–B bonds. This research provides a clear understanding of the mechanism of dynamic crosslinking in PBS, resolving long-standing controversies in the field. Ministry of Education (MOE) JVH acknowledges financial support for the solid state NMR instrumentation at Warwick used in this research which was funded by EPSRC (grants EP/M028186/1 and EP/K024418/1), the University of Warwick, and the Birmingham Science City AM1 and AM2 projects, which, in turn, were supported by Advantage West Midlands (AWM) and the European Regional Development Fund (ERDF). YL acknowledges Ministry of Education (MOE) for funding the research through the following grants: AcRF Tier 1 (Reference No: RG57/21); AcRF Tier 2 (Reference No: MOE-T2EP50220-0020, and MOE-T2EP50122-0005). 2023-10-18T04:09:56Z 2023-10-18T04:09:56Z 2023 Journal Article Kurkin, A., Lekina, Y., Bradley, D. G., Seah, G. L., Tan, K. W., Lipik, V., Hanna, J. V., Zhang, X. & Tok, A. L. Y. (2023). Unravelling the dynamic crosslinking mechanism in polyborosiloxane. Materials Today Chemistry, 33, 101677-. https://dx.doi.org/10.1016/j.mtchem.2023.101677 2468-5194 https://hdl.handle.net/10356/171277 10.1016/j.mtchem.2023.101677 2-s2.0-85167585501 33 101677 en RG57/21 MOE-T2EP50220-0020 MOE-T2EP50122-0005 Materials Today Chemistry © 2023 Published by Elsevier Ltd. All rights reserved. |
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Engineering::Materials Polyborosiloxane Dynamic Covalent Bonding Kurkin, Anatoli Lekina, Yulia Bradley, David G. Seah, Geok Leng Tan, Kwan Wee Lipik, Vitali Hanna, John V. Zhang, Xin Tok, Alfred ling Yoong Unravelling the dynamic crosslinking mechanism in polyborosiloxane |
| description |
This study offers a comprehensive investigation into the mechanism behind the dynamic crosslinking of polyborosiloxane (PBS). Despite this material being well known for over 70 years, the origin of PBS's unique viscoelastic properties has been a topic of debate in the literature. Through combined FTIR and solid-state 29Si and 11B MAS NMR analyses, this study provides evidence that the formation of Si–O–B dynamic covalent bonds, along with their associative exchange with neighboring hydroxyl-bearing species (free silanol, water, alcohol, etc.), drives the gelation and viscoelastic behavior of PBS. Results show no indication of hydrogen or dative bonding, instead the low energy barrier for formation and breakage of Si–O–B bonds allows for easy exchange at room temperature. Moreover, the study finds that the viscoelastic properties of PBS can be adjusted by the choice of boron B–O functionality, leading to n-functional dynamic crosslinking through Si–O–B bonds. This research provides a clear understanding of the mechanism of dynamic crosslinking in PBS, resolving long-standing controversies in the field. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Kurkin, Anatoli Lekina, Yulia Bradley, David G. Seah, Geok Leng Tan, Kwan Wee Lipik, Vitali Hanna, John V. Zhang, Xin Tok, Alfred ling Yoong |
| format |
Article |
| author |
Kurkin, Anatoli Lekina, Yulia Bradley, David G. Seah, Geok Leng Tan, Kwan Wee Lipik, Vitali Hanna, John V. Zhang, Xin Tok, Alfred ling Yoong |
| author_sort |
Kurkin, Anatoli |
| title |
Unravelling the dynamic crosslinking mechanism in polyborosiloxane |
| title_short |
Unravelling the dynamic crosslinking mechanism in polyborosiloxane |
| title_full |
Unravelling the dynamic crosslinking mechanism in polyborosiloxane |
| title_fullStr |
Unravelling the dynamic crosslinking mechanism in polyborosiloxane |
| title_full_unstemmed |
Unravelling the dynamic crosslinking mechanism in polyborosiloxane |
| title_sort |
unravelling the dynamic crosslinking mechanism in polyborosiloxane |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171277 |
| _version_ |
1781793852481339392 |