Catalyst switch strategy enabled a single polymer with five different crystalline phases

Well-defined multicrystalline multiblock polymers are essential model polymers for advancing crystallization physics, phase separation, self-assembly, and improving the mechanical properties of materials. However, due to different chain properties and incompatible synthetic methodologies, multicryst...

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Published in	Nature communications Vol. 14; no. 1; pp. 7559 - 11
Main Authors	Zhang, Pengfei, Ladelta, Viko, Abou-hamad, Edy, Müller, Alejandro J., Hadjichristidis, Nikos
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 20.11.2023 Nature Publishing Group Nature Portfolio
Subjects	140/131 639/301/923/1028 639/638/455/958 639/638/455/959 Calorimetry Catalysts Chemical synthesis Crystallites Crystallization Crystals Differential scanning calorimetry Ethylene oxide Humanities and Social Sciences Magnetic resonance spectroscopy Material properties Mechanical properties Melting point Melting points multidisciplinary NMR NMR spectroscopy Nuclear magnetic resonance Phase separation Physics Poly(L-lactide) Polycaprolactone Polyethylene oxide Polyglycolic acid Polylactic acid Polymerization Polymers Ring opening polymerization Science Science (multidisciplinary) Self-assembly X-ray diffraction
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Abstract	Well-defined multicrystalline multiblock polymers are essential model polymers for advancing crystallization physics, phase separation, self-assembly, and improving the mechanical properties of materials. However, due to different chain properties and incompatible synthetic methodologies, multicrystalline multiblock polymers with more than two crystallites are rarely reported. Herein, by combining polyhomologation, ring-opening polymerization, and catalyst switch strategy, we synthesized a pentacrystalline pentablock quintopolymer, polyethylene- b -poly(ethylene oxide)- b -poly( ε -caprolactone)- b -poly(L-lactide)- b -polyglycolide (PE- b -PEO- b -PCL- b -PLLA- b -PGA). The fluoroalcohol-assisted catalyst switch enables the successful incorporation of a high melting point polyglycolide block into the complex multiblock structure. Solid-state nuclear magnetic resonance spectroscopy, X-ray diffraction, and differential scanning calorimetry revealed the existence of five different crystalline phases. Well-defined multicrystalline multiblock polymers are essential model polymers for advancing the physics of crystallization but due to the different chain properties and incompatible synthetic methodologies, multicrystalline multiblock polymers with more than two crystallites are rarely reported. Here the authors combine polyhomologation, ring-opening polymerization and a catalyst switch strategy to synthesize a pentacrystalline pentablock quintopolymer.
AbstractList	Well-defined multicrystalline multiblock polymers are essential model polymers for advancing crystallization physics, phase separation, self-assembly, and improving the mechanical properties of materials. However, due to different chain properties and incompatible synthetic methodologies, multicrystalline multiblock polymers with more than two crystallites are rarely reported. Herein, by combining polyhomologation, ring-opening polymerization, and catalyst switch strategy, we synthesized a pentacrystalline pentablock quintopolymer, polyethylene- b -poly(ethylene oxide)- b -poly( ε -caprolactone)- b -poly(L-lactide)- b -polyglycolide (PE- b -PEO- b -PCL- b -PLLA- b -PGA). The fluoroalcohol-assisted catalyst switch enables the successful incorporation of a high melting point polyglycolide block into the complex multiblock structure. Solid-state nuclear magnetic resonance spectroscopy, X-ray diffraction, and differential scanning calorimetry revealed the existence of five different crystalline phases. Well-defined multicrystalline multiblock polymers are essential model polymers for advancing crystallization physics, phase separation, self-assembly, and improving the mechanical properties of materials. However, due to different chain properties and incompatible synthetic methodologies, multicrystalline multiblock polymers with more than two crystallites are rarely reported. Herein, by combining polyhomologation, ring-opening polymerization, and catalyst switch strategy, we synthesized a pentacrystalline pentablock quintopolymer, polyethylene- b -poly(ethylene oxide)- b -poly( ε -caprolactone)- b -poly(L-lactide)- b -polyglycolide (PE- b -PEO- b -PCL- b -PLLA- b -PGA). The fluoroalcohol-assisted catalyst switch enables the successful incorporation of a high melting point polyglycolide block into the complex multiblock structure. Solid-state nuclear magnetic resonance spectroscopy, X-ray diffraction, and differential scanning calorimetry revealed the existence of five different crystalline phases. Well-defined multicrystalline multiblock polymers are essential model polymers for advancing the physics of crystallization but due to the different chain properties and incompatible synthetic methodologies, multicrystalline multiblock polymers with more than two crystallites are rarely reported. Here the authors combine polyhomologation, ring-opening polymerization and a catalyst switch strategy to synthesize a pentacrystalline pentablock quintopolymer. Well-defined multicrystalline multiblock polymers are essential model polymers for advancing crystallization physics, phase separation, self-assembly, and improving the mechanical properties of materials. However, due to different chain properties and incompatible synthetic methodologies, multicrystalline multiblock polymers with more than two crystallites are rarely reported. Herein, by combining polyhomologation, ring-opening polymerization, and catalyst switch strategy, we synthesized a pentacrystalline pentablock quintopolymer, polyethylene-b-poly(ethylene oxide)-b-poly(ε-caprolactone)-b-poly(L-lactide)-b-polyglycolide (PE-b-PEO-b-PCL-b-PLLA-b-PGA). The fluoroalcohol-assisted catalyst switch enables the successful incorporation of a high melting point polyglycolide block into the complex multiblock structure. Solid-state nuclear magnetic resonance spectroscopy, X-ray diffraction, and differential scanning calorimetry revealed the existence of five different crystalline phases.Well-defined multicrystalline multiblock polymers are essential model polymers for advancing crystallization physics, phase separation, self-assembly, and improving the mechanical properties of materials. However, due to different chain properties and incompatible synthetic methodologies, multicrystalline multiblock polymers with more than two crystallites are rarely reported. Herein, by combining polyhomologation, ring-opening polymerization, and catalyst switch strategy, we synthesized a pentacrystalline pentablock quintopolymer, polyethylene-b-poly(ethylene oxide)-b-poly(ε-caprolactone)-b-poly(L-lactide)-b-polyglycolide (PE-b-PEO-b-PCL-b-PLLA-b-PGA). The fluoroalcohol-assisted catalyst switch enables the successful incorporation of a high melting point polyglycolide block into the complex multiblock structure. Solid-state nuclear magnetic resonance spectroscopy, X-ray diffraction, and differential scanning calorimetry revealed the existence of five different crystalline phases. Abstract Well-defined multicrystalline multiblock polymers are essential model polymers for advancing crystallization physics, phase separation, self-assembly, and improving the mechanical properties of materials. However, due to different chain properties and incompatible synthetic methodologies, multicrystalline multiblock polymers with more than two crystallites are rarely reported. Herein, by combining polyhomologation, ring-opening polymerization, and catalyst switch strategy, we synthesized a pentacrystalline pentablock quintopolymer, polyethylene-b-poly(ethylene oxide)-b-poly(ε-caprolactone)-b-poly(L-lactide)-b-polyglycolide (PE-b-PEO-b-PCL-b-PLLA-b-PGA). The fluoroalcohol-assisted catalyst switch enables the successful incorporation of a high melting point polyglycolide block into the complex multiblock structure. Solid-state nuclear magnetic resonance spectroscopy, X-ray diffraction, and differential scanning calorimetry revealed the existence of five different crystalline phases. Well-defined multicrystalline multiblock polymers are essential model polymers for advancing crystallization physics, phase separation, self-assembly, and improving the mechanical properties of materials. However, due to different chain properties and incompatible synthetic methodologies, multicrystalline multiblock polymers with more than two crystallites are rarely reported. Herein, by combining polyhomologation, ring-opening polymerization, and catalyst switch strategy, we synthesized a pentacrystalline pentablock quintopolymer, polyethylene-b-poly(ethylene oxide)-b-poly(ε-caprolactone)-b-poly(L-lactide)-b-polyglycolide (PE-b-PEO-b-PCL-b-PLLA-b-PGA). The fluoroalcohol-assisted catalyst switch enables the successful incorporation of a high melting point polyglycolide block into the complex multiblock structure. Solid-state nuclear magnetic resonance spectroscopy, X-ray diffraction, and differential scanning calorimetry revealed the existence of five different crystalline phases.Well-defined multicrystalline multiblock polymers are essential model polymers for advancing the physics of crystallization but due to the different chain properties and incompatible synthetic methodologies, multicrystalline multiblock polymers with more than two crystallites are rarely reported. Here the authors combine polyhomologation, ring-opening polymerization and a catalyst switch strategy to synthesize a pentacrystalline pentablock quintopolymer.
ArticleNumber	7559
Author	Hadjichristidis, Nikos Zhang, Pengfei Abou-hamad, Edy Ladelta, Viko Müller, Alejandro J.
Author_xml	– sequence: 1 givenname: Pengfei orcidid: 0000-0003-4306-7961 surname: Zhang fullname: Zhang, Pengfei organization: Polymer Synthesis Laboratory, KAUST Catalysis Center, Chemistry Program, Physical Sciences and Engineering Division, King Abdullah University of Science and Technology (KAUST) – sequence: 2 givenname: Viko orcidid: 0000-0003-0596-7571 surname: Ladelta fullname: Ladelta, Viko organization: Polymer Synthesis Laboratory, KAUST Catalysis Center, Chemistry Program, Physical Sciences and Engineering Division, King Abdullah University of Science and Technology (KAUST) – sequence: 3 givenname: Edy surname: Abou-hamad fullname: Abou-hamad, Edy organization: Imaging and Characterization Core Lab, King Abdullah University of Science and Technology (KAUST) – sequence: 4 givenname: Alejandro J. surname: Müller fullname: Müller, Alejandro J. organization: Department of Polymers and Advanced Materials, Physics, Chemistry and Technology, Faculty of Chemistry, University of the Basque Country UPV/EHU – sequence: 5 givenname: Nikos orcidid: 0000-0003-1442-1714 surname: Hadjichristidis fullname: Hadjichristidis, Nikos email: nikolaos.hadjichristidis@kaust.edu.sa organization: Polymer Synthesis Laboratory, KAUST Catalysis Center, Chemistry Program, Physical Sciences and Engineering Division, King Abdullah University of Science and Technology (KAUST)
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Snippet	Well-defined multicrystalline multiblock polymers are essential model polymers for advancing crystallization physics, phase separation, self-assembly, and... Abstract Well-defined multicrystalline multiblock polymers are essential model polymers for advancing crystallization physics, phase separation, self-assembly,...
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SubjectTerms	140/131 639/301/923/1028 639/638/455/958 639/638/455/959 Calorimetry Catalysts Chemical synthesis Crystallites Crystallization Crystals Differential scanning calorimetry Ethylene oxide Humanities and Social Sciences Magnetic resonance spectroscopy Material properties Mechanical properties Melting point Melting points multidisciplinary NMR NMR spectroscopy Nuclear magnetic resonance Phase separation Physics Poly(L-lactide) Polycaprolactone Polyethylene oxide Polyglycolic acid Polylactic acid Polymerization Polymers Ring opening polymerization Science Science (multidisciplinary) Self-assembly X-ray diffraction
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Title	Catalyst switch strategy enabled a single polymer with five different crystalline phases
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