Biobased chiral semi-crystalline or amorphous high-performance polyamides and their scalable stereoselective synthesis

Bio‐based compounds often suffer from high production cost and low performance when used to synthesise macromolecules. Here the authors show the conversion of (+)‐3‐ carene, a by‐product of the cellulose industry, into its ε‐lactams and then to polyamides with high‐performance thermal properties....

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Autores principales: Paul N. Stockmann, Daniel Van Opdenbosch, Alexander Poethig, Dominik L. Pastoetter, Moritz Hoehenberger, Sebastian Lessig, Johannes Raab, Marion Woelbing, Claudia Falcke, Malte Winnacker, Cordt Zollfrank, Harald Strittmatter, Volker Sieber
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Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/c2456850ff2b4580a0079dd6b1747632
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spelling oai:doaj.org-article:c2456850ff2b4580a0079dd6b17476322021-12-02T14:41:15ZBiobased chiral semi-crystalline or amorphous high-performance polyamides and their scalable stereoselective synthesis10.1038/s41467-020-14361-62041-1723https://doaj.org/article/c2456850ff2b4580a0079dd6b17476322020-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-14361-6https://doaj.org/toc/2041-1723Bio‐based compounds often suffer from high production cost and low performance when used to synthesise macromolecules. Here the authors show the conversion of (+)‐3‐ carene, a by‐product of the cellulose industry, into its ε‐lactams and then to polyamides with high‐performance thermal properties.Paul N. StockmannDaniel Van OpdenboschAlexander PoethigDominik L. PastoetterMoritz HoehenbergerSebastian LessigJohannes RaabMarion WoelbingClaudia FalckeMalte WinnackerCordt ZollfrankHarald StrittmatterVolker SieberNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-12 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Paul N. Stockmann
Daniel Van Opdenbosch
Alexander Poethig
Dominik L. Pastoetter
Moritz Hoehenberger
Sebastian Lessig
Johannes Raab
Marion Woelbing
Claudia Falcke
Malte Winnacker
Cordt Zollfrank
Harald Strittmatter
Volker Sieber
Biobased chiral semi-crystalline or amorphous high-performance polyamides and their scalable stereoselective synthesis
description Bio‐based compounds often suffer from high production cost and low performance when used to synthesise macromolecules. Here the authors show the conversion of (+)‐3‐ carene, a by‐product of the cellulose industry, into its ε‐lactams and then to polyamides with high‐performance thermal properties.
format article
author Paul N. Stockmann
Daniel Van Opdenbosch
Alexander Poethig
Dominik L. Pastoetter
Moritz Hoehenberger
Sebastian Lessig
Johannes Raab
Marion Woelbing
Claudia Falcke
Malte Winnacker
Cordt Zollfrank
Harald Strittmatter
Volker Sieber
author_facet Paul N. Stockmann
Daniel Van Opdenbosch
Alexander Poethig
Dominik L. Pastoetter
Moritz Hoehenberger
Sebastian Lessig
Johannes Raab
Marion Woelbing
Claudia Falcke
Malte Winnacker
Cordt Zollfrank
Harald Strittmatter
Volker Sieber
author_sort Paul N. Stockmann
title Biobased chiral semi-crystalline or amorphous high-performance polyamides and their scalable stereoselective synthesis
title_short Biobased chiral semi-crystalline or amorphous high-performance polyamides and their scalable stereoselective synthesis
title_full Biobased chiral semi-crystalline or amorphous high-performance polyamides and their scalable stereoselective synthesis
title_fullStr Biobased chiral semi-crystalline or amorphous high-performance polyamides and their scalable stereoselective synthesis
title_full_unstemmed Biobased chiral semi-crystalline or amorphous high-performance polyamides and their scalable stereoselective synthesis
title_sort biobased chiral semi-crystalline or amorphous high-performance polyamides and their scalable stereoselective synthesis
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/c2456850ff2b4580a0079dd6b1747632
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