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Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones

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Zeitschriftentitel: Macromolecular Rapid Communications
Personen und Körperschaften: Bandelli, Damiano, Weber, Christine, Schubert, Ulrich S.
In: Macromolecular Rapid Communications, 40, 2019, 20
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
Materials Chemistry
Polymers and Plastics
Organic Chemistry
author_facet Bandelli, Damiano
Weber, Christine
Schubert, Ulrich S.
Bandelli, Damiano
Weber, Christine
Schubert, Ulrich S.
author Bandelli, Damiano
Weber, Christine
Schubert, Ulrich S.
spellingShingle Bandelli, Damiano
Weber, Christine
Schubert, Ulrich S.
Macromolecular Rapid Communications
Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
Materials Chemistry
Polymers and Plastics
Organic Chemistry
author_sort bandelli, damiano
spelling Bandelli, Damiano Weber, Christine Schubert, Ulrich S. 1022-1336 1521-3927 Wiley Materials Chemistry Polymers and Plastics Organic Chemistry http://dx.doi.org/10.1002/marc.201900306 <jats:title>Abstract</jats:title><jats:p>Commercially available strontium isopropoxide represents a suitable catalyst/initiator for the ring‐opening polymerization (ROP) of lactide (LA), ε−caprolactone, δ−valerolactone, δ−caprolactone, and δ−decalactone. Well‐defined polyesters are accessible via the solution polymerization of lactide in toluene with a [LA]:[Sr] ratio of 100:1 at room temperature with or without the addition of dodecanol as coinitiator. Kinetic studies and detailed analysis by means of matrix‐assisted laser desorption ionization mass spectrometry reveal pseudo‐first‐order kinetics of the ROP as well as excellent endgroup fidelity of the polylactide (PLA) with isopropyl and dodecyl α‐endgroups. Both isopropanolate moieties as well as the coinitiator each initiate PLA chains, enabling the synthesis of PLA with tailored molar mass. The polymerization of ε−caprolactone and δ−valerolactone confirms the high catalyst activity, which causes quantitative monomer conversion after 1 min polymerization time but broad molar mass distributions. In contrast, the catalyst is well suited for the ROP of the less reactive δ−caprolactone and δ−decalactone. Although kinetic studies reveal initially bimodal molar mass distributions, polyesters with dispersity values <jats:italic>Ð</jats:italic> &lt; 1.2 and unimodal molar mass distributions can be obtained at moderate to high monomer conversions.</jats:p> Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones Macromolecular Rapid Communications
doi_str_mv 10.1002/marc.201900306
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series Macromolecular Rapid Communications
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title Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
title_unstemmed Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
title_full Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
title_fullStr Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
title_full_unstemmed Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
title_short Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
title_sort strontium isopropoxide: a highly active catalyst for the ring‐opening polymerization of lactide and various lactones
topic Materials Chemistry
Polymers and Plastics
Organic Chemistry
url http://dx.doi.org/10.1002/marc.201900306
publishDate 2019
physical
description <jats:title>Abstract</jats:title><jats:p>Commercially available strontium isopropoxide represents a suitable catalyst/initiator for the ring‐opening polymerization (ROP) of lactide (LA), ε−caprolactone, δ−valerolactone, δ−caprolactone, and δ−decalactone. Well‐defined polyesters are accessible via the solution polymerization of lactide in toluene with a [LA]:[Sr] ratio of 100:1 at room temperature with or without the addition of dodecanol as coinitiator. Kinetic studies and detailed analysis by means of matrix‐assisted laser desorption ionization mass spectrometry reveal pseudo‐first‐order kinetics of the ROP as well as excellent endgroup fidelity of the polylactide (PLA) with isopropyl and dodecyl α‐endgroups. Both isopropanolate moieties as well as the coinitiator each initiate PLA chains, enabling the synthesis of PLA with tailored molar mass. The polymerization of ε−caprolactone and δ−valerolactone confirms the high catalyst activity, which causes quantitative monomer conversion after 1 min polymerization time but broad molar mass distributions. In contrast, the catalyst is well suited for the ROP of the less reactive δ−caprolactone and δ−decalactone. Although kinetic studies reveal initially bimodal molar mass distributions, polyesters with dispersity values <jats:italic>Ð</jats:italic> &lt; 1.2 and unimodal molar mass distributions can be obtained at moderate to high monomer conversions.</jats:p>
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author Bandelli, Damiano, Weber, Christine, Schubert, Ulrich S.
author_facet Bandelli, Damiano, Weber, Christine, Schubert, Ulrich S., Bandelli, Damiano, Weber, Christine, Schubert, Ulrich S.
author_sort bandelli, damiano
container_issue 20
container_start_page 0
container_title Macromolecular Rapid Communications
container_volume 40
description <jats:title>Abstract</jats:title><jats:p>Commercially available strontium isopropoxide represents a suitable catalyst/initiator for the ring‐opening polymerization (ROP) of lactide (LA), ε−caprolactone, δ−valerolactone, δ−caprolactone, and δ−decalactone. Well‐defined polyesters are accessible via the solution polymerization of lactide in toluene with a [LA]:[Sr] ratio of 100:1 at room temperature with or without the addition of dodecanol as coinitiator. Kinetic studies and detailed analysis by means of matrix‐assisted laser desorption ionization mass spectrometry reveal pseudo‐first‐order kinetics of the ROP as well as excellent endgroup fidelity of the polylactide (PLA) with isopropyl and dodecyl α‐endgroups. Both isopropanolate moieties as well as the coinitiator each initiate PLA chains, enabling the synthesis of PLA with tailored molar mass. The polymerization of ε−caprolactone and δ−valerolactone confirms the high catalyst activity, which causes quantitative monomer conversion after 1 min polymerization time but broad molar mass distributions. In contrast, the catalyst is well suited for the ROP of the less reactive δ−caprolactone and δ−decalactone. Although kinetic studies reveal initially bimodal molar mass distributions, polyesters with dispersity values <jats:italic>Ð</jats:italic> &lt; 1.2 and unimodal molar mass distributions can be obtained at moderate to high monomer conversions.</jats:p>
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spelling Bandelli, Damiano Weber, Christine Schubert, Ulrich S. 1022-1336 1521-3927 Wiley Materials Chemistry Polymers and Plastics Organic Chemistry http://dx.doi.org/10.1002/marc.201900306 <jats:title>Abstract</jats:title><jats:p>Commercially available strontium isopropoxide represents a suitable catalyst/initiator for the ring‐opening polymerization (ROP) of lactide (LA), ε−caprolactone, δ−valerolactone, δ−caprolactone, and δ−decalactone. Well‐defined polyesters are accessible via the solution polymerization of lactide in toluene with a [LA]:[Sr] ratio of 100:1 at room temperature with or without the addition of dodecanol as coinitiator. Kinetic studies and detailed analysis by means of matrix‐assisted laser desorption ionization mass spectrometry reveal pseudo‐first‐order kinetics of the ROP as well as excellent endgroup fidelity of the polylactide (PLA) with isopropyl and dodecyl α‐endgroups. Both isopropanolate moieties as well as the coinitiator each initiate PLA chains, enabling the synthesis of PLA with tailored molar mass. The polymerization of ε−caprolactone and δ−valerolactone confirms the high catalyst activity, which causes quantitative monomer conversion after 1 min polymerization time but broad molar mass distributions. In contrast, the catalyst is well suited for the ROP of the less reactive δ−caprolactone and δ−decalactone. Although kinetic studies reveal initially bimodal molar mass distributions, polyesters with dispersity values <jats:italic>Ð</jats:italic> &lt; 1.2 and unimodal molar mass distributions can be obtained at moderate to high monomer conversions.</jats:p> Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones Macromolecular Rapid Communications
spellingShingle Bandelli, Damiano, Weber, Christine, Schubert, Ulrich S., Macromolecular Rapid Communications, Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones, Materials Chemistry, Polymers and Plastics, Organic Chemistry
title Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
title_full Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
title_fullStr Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
title_full_unstemmed Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
title_short Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
title_sort strontium isopropoxide: a highly active catalyst for the ring‐opening polymerization of lactide and various lactones
title_unstemmed Strontium Isopropoxide: A Highly Active Catalyst for the Ring‐Opening Polymerization of Lactide and Various Lactones
topic Materials Chemistry, Polymers and Plastics, Organic Chemistry
url http://dx.doi.org/10.1002/marc.201900306