Precise synthesis of undecenyl poly(ethylene oxide) macromonomers as heterofunctional building blocks for the synthesis of linear diblocks or of branched materials

Precise synthesis of undecenyl poly(ethylene oxide) macromonomers as heterofunctional building blocks for the synthesis of linear diblocks or of branched materials

Amphiphilic α-undecenyl-ω-hydroxy heterobifunctional PEOs of precise molar mass and adjustable hydrophobic/hydrophilic balance were successfully synthesized by anionic ring opening polymerization of ethylene oxide. The most original part of the work concerns a new unsaturated heterofunctional initia...

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Veröffentlicht in:European polymer journal 2014-08, Vol.57, p.221-236
Hauptverfasser: Pozza, Gladys M.-E., Barthel, Markus J., Crotty, Sarah, Vitz, Jürgen, Schacher, Felix H., Lutz, Pierre J., Schubert, Ulrich S.
Format: Artikel
Sprache:eng
Schlagworte:
Anionic Ring-Opening polymerization (AROP)
Applied sciences
Branched materials
Ethylene oxide
Exact sciences and technology
Heterobifunctional macromonomers
Initiators
Light scattering
Methyl alcohol
Organic polymers
Oxides
Physicochemistry of polymers
Poly(ethylene oxide)
Polymerization
Potassium
Preparation, kinetics, thermodynamics, mechanism and catalysts
Synthesis
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container_end_page 236
container_issue
container_start_page 221
container_title European polymer journal
container_volume 57
creator Pozza, Gladys M.-E.
Barthel, Markus J.
Crotty, Sarah
Vitz, Jürgen
Schacher, Felix H.
Lutz, Pierre J.
Schubert, Ulrich S.
description Amphiphilic α-undecenyl-ω-hydroxy heterobifunctional PEOs of precise molar mass and adjustable hydrophobic/hydrophilic balance were successfully synthesized by anionic ring opening polymerization of ethylene oxide. The most original part of the work concerns a new unsaturated heterofunctional initiator in powder form. The availability of such an initiator facilitates the processing, the reaction procedure and offers new perspectives in the synthesis of libraries of end-functional PEOs. α-Undecenyl-ω-methacryloyl and α-undecenyl-ω-acetylene heterobifunctional PEO macromonomers could be obtained. They served as building blocks for the synthesis of functional PI-b-PEO diblock copolymers and functional branched architectures. [Display omitted] •Design of new heterofunctional α-undecenyl-ω-hydroxypoly(ethylene oxide) (PEO) by AROP.•Initiator in powder form that facilitates the processing and the reaction procedure.•New heterobifunctional α-undecenyl-ω-methacryloyl and α-undecenyl ω-acetylene PEOs.•New functional comb or star-shaped PEOs based on α-undecenyl-ω-methacryloyl PEOs.•Design of functional poly(ethylene oxide-b-isoprene) block copolymers by “click chemistry”. Heterofunctional α-undecenyl-ω-hydroxy poly(ethylene oxide) (PEO) macromonomers could be designed by initiation. For their synthesis via Anionic Ring-Opening Polymerization (AROP) of ethylene oxide, a potassium alcoholate, prepared in situ by reaction of 10-undecene-1-ol with a stoichiometric amount of diphenylmethyl potassium (DPMK), was used. The applicability of the same initiator but in powder form was evaluated for the polymerization of ethylene oxide. This initiator is well-suited for, e.g., automated high-throughput screening approaches by simply weighing in the amount of initiator needed. The macromonomers were characterized by SEC, 1H NMR, MALDI-TOF MS and light scattering. Independent from the applied approach, well-defined heterobifunctional PEO macromonomers could be obtained. Their solution behavior was investigated in water and methanol by Dynamic Light Scattering (DLS) and in water by critical micelle concentration (cmc) measurements. Chemical modification of the hydroxyl end-group by methyl methacrylate or by propargyl bromide could be achieved leading to heterobifunctional PEO macromonomers. These PEOs offer a great potential as building blocks in macromolecular engineering. PI-b-PEO diblocks or comb-shaped PEOs represent typical examples.
doi_str_mv 10.1016/j.eurpolymj.2014.05.021
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Heterofunctional α-undecenyl-ω-hydroxy poly(ethylene oxide) (PEO) macromonomers could be designed by initiation. For their synthesis via Anionic Ring-Opening Polymerization (AROP) of ethylene oxide, a potassium alcoholate, prepared in situ by reaction of 10-undecene-1-ol with a stoichiometric amount of diphenylmethyl potassium (DPMK), was used. The applicability of the same initiator but in powder form was evaluated for the polymerization of ethylene oxide. This initiator is well-suited for, e.g., automated high-throughput screening approaches by simply weighing in the amount of initiator needed. The macromonomers were characterized by SEC, 1H NMR, MALDI-TOF MS and light scattering. Independent from the applied approach, well-defined heterobifunctional PEO macromonomers could be obtained. Their solution behavior was investigated in water and methanol by Dynamic Light Scattering (DLS) and in water by critical micelle concentration (cmc) measurements. 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The most original part of the work concerns a new unsaturated heterofunctional initiator in powder form. The availability of such an initiator facilitates the processing, the reaction procedure and offers new perspectives in the synthesis of libraries of end-functional PEOs. α-Undecenyl-ω-methacryloyl and α-undecenyl-ω-acetylene heterobifunctional PEO macromonomers could be obtained. They served as building blocks for the synthesis of functional PI-b-PEO diblock copolymers and functional branched architectures. [Display omitted] •Design of new heterofunctional α-undecenyl-ω-hydroxypoly(ethylene oxide) (PEO) by AROP.•Initiator in powder form that facilitates the processing and the reaction procedure.•New heterobifunctional α-undecenyl-ω-methacryloyl and α-undecenyl ω-acetylene PEOs.•New functional comb or star-shaped PEOs based on α-undecenyl-ω-methacryloyl PEOs.•Design of functional poly(ethylene oxide-b-isoprene) block copolymers by “click chemistry”. Heterofunctional α-undecenyl-ω-hydroxy poly(ethylene oxide) (PEO) macromonomers could be designed by initiation. For their synthesis via Anionic Ring-Opening Polymerization (AROP) of ethylene oxide, a potassium alcoholate, prepared in situ by reaction of 10-undecene-1-ol with a stoichiometric amount of diphenylmethyl potassium (DPMK), was used. The applicability of the same initiator but in powder form was evaluated for the polymerization of ethylene oxide. This initiator is well-suited for, e.g., automated high-throughput screening approaches by simply weighing in the amount of initiator needed. The macromonomers were characterized by SEC, 1H NMR, MALDI-TOF MS and light scattering. Independent from the applied approach, well-defined heterobifunctional PEO macromonomers could be obtained. Their solution behavior was investigated in water and methanol by Dynamic Light Scattering (DLS) and in water by critical micelle concentration (cmc) measurements. Chemical modification of the hydroxyl end-group by methyl methacrylate or by propargyl bromide could be achieved leading to heterobifunctional PEO macromonomers. These PEOs offer a great potential as building blocks in macromolecular engineering. PI-b-PEO diblocks or comb-shaped PEOs represent typical examples.</abstract><cop>Kidlington</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.eurpolymj.2014.05.021</doi><tpages>16</tpages></addata></record>
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ispartof European polymer journal, 2014-08, Vol.57, p.221-236
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source ScienceDirect Journals (5 years ago - present)
subjects Anionic Ring-Opening polymerization (AROP)
Applied sciences
Branched materials
Ethylene oxide
Exact sciences and technology
Heterobifunctional macromonomers
Initiators
Light scattering
Methyl alcohol
Organic polymers
Oxides
Physicochemistry of polymers
Poly(ethylene oxide)
Polymerization
Potassium
Preparation, kinetics, thermodynamics, mechanism and catalysts
Synthesis
title Precise synthesis of undecenyl poly(ethylene oxide) macromonomers as heterofunctional building blocks for the synthesis of linear diblocks or of branched materials
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