Helical bias in supramolecular polymers accounts for different stabilities of kinetically trapped states

Marcin L. Ślęczkowski; Mathijs F.J. Mabesoone; Marco D. Preuss; Yorick Post; Anja R.A. Palmans; E.W. Meijer

doi:10.1002/pol.20220036

Helical bias in supramolecular polymers accounts for different stabilities of kinetically trapped states

Marcin L. Ślęczkowski, Mathijs F.J. Mabesoone, Marco D. Preuss, Yorick Post, Anja R.A. Palmans, E.W. Meijer (Corresponding author)

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

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Samenvatting

The idea to synthesize and self-assemble nano-graphenes with structural precision into supramolecular polymers is just one of Klaus Müllen's many pioneering contributions to the chemical sciences. To honor his impact in the field of polymer science, we here describe a study that combines experimental and computational methods in studying the stability of kinetically trapped states of supramolecular polymers. We show that the introduction of stereocenters in the sidechains allow helical supramolecular polymers based on chiral triphenylene-2,6,10-tricarboxamide monomers to escape a kinetic trap more efficiently than polymers based on their achiral analogs. Partial depolymerization of the kinetically trapped state by increasing the temperature followed by polymerization by lowering the temperature shows that monomers either polymerize on existing stacks or self-nucleate to form the thermodynamically more stable state. Chiral monomers prefer the latter more than achiral monomers.

Originele taal-2	Engels
Pagina's (van-tot)	1871-1877
Aantal pagina's	7
Tijdschrift	Journal of Polymer Science
Volume	60
Nummer van het tijdschrift	12
Vroegere onlinedatum	2 mrt. 2022
DOI's	https://doi.org/10.1002/pol.20220036
Status	Gepubliceerd - 15 jun. 2022

Bibliografische nota

Funding Information:
This work was financially supported by The Netherlands Organization for Scientific Research (TOP‐PUNT grant 10018944, ECHO grant 713.016.003) and the Dutch Ministry of Education, Culture and Science (gravity program FMS 024.001.035).

Funding Information:
Dutch Ministry of Education, Culture and Science, Grant/Award Number: 024.001.035; The Netherlands Organization for Scientific Research, Grant/Award Numbers: 10018944, 713.016.003 Funding information

Publisher Copyright:
© 2022 The Authors. Journal of Polymer Science published by Wiley Periodicals LLC.

Financiering

This work was financially supported by The Netherlands Organization for Scientific Research (TOP‐PUNT grant 10018944, ECHO grant 713.016.003) and the Dutch Ministry of Education, Culture and Science (gravity program FMS 024.001.035). Dutch Ministry of Education, Culture and Science, Grant/Award Number: 024.001.035; The Netherlands Organization for Scientific Research, Grant/Award Numbers: 10018944, 713.016.003 Funding information

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abstract = "The idea to synthesize and self-assemble nano-graphenes with structural precision into supramolecular polymers is just one of Klaus M{\"u}llen's many pioneering contributions to the chemical sciences. To honor his impact in the field of polymer science, we here describe a study that combines experimental and computational methods in studying the stability of kinetically trapped states of supramolecular polymers. We show that the introduction of stereocenters in the sidechains allow helical supramolecular polymers based on chiral triphenylene-2,6,10-tricarboxamide monomers to escape a kinetic trap more efficiently than polymers based on their achiral analogs. Partial depolymerization of the kinetically trapped state by increasing the temperature followed by polymerization by lowering the temperature shows that monomers either polymerize on existing stacks or self-nucleate to form the thermodynamically more stable state. Chiral monomers prefer the latter more than achiral monomers.",

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AU - Preuss, Marco D.

AU - Post, Yorick

AU - Palmans, Anja R.A.

AU - Meijer, E.W.

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AB - The idea to synthesize and self-assemble nano-graphenes with structural precision into supramolecular polymers is just one of Klaus Müllen's many pioneering contributions to the chemical sciences. To honor his impact in the field of polymer science, we here describe a study that combines experimental and computational methods in studying the stability of kinetically trapped states of supramolecular polymers. We show that the introduction of stereocenters in the sidechains allow helical supramolecular polymers based on chiral triphenylene-2,6,10-tricarboxamide monomers to escape a kinetic trap more efficiently than polymers based on their achiral analogs. Partial depolymerization of the kinetically trapped state by increasing the temperature followed by polymerization by lowering the temperature shows that monomers either polymerize on existing stacks or self-nucleate to form the thermodynamically more stable state. Chiral monomers prefer the latter more than achiral monomers.

KW - chirality

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Helical bias in supramolecular polymers accounts for different stabilities of kinetically trapped states

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