Search results for "ring-opening polymerization"

showing 10 items of 85 documents

1-n-Butyl-3-methylimidazolium-2-carboxylate: a versatile precatalyst for the ring-opening polymerization of ε-caprolactone and rac-lactide under solv…

2013

The ring-opening polymerization of ε-caprolactone (ε-CL) and rac-lactide (rac-LA) under solvent-free conditions and using 1-n-butyl-3-methylimidazolium-2-carboxylate (BMIM-2-CO2) as precatalyst is described. Linear and star-branched polyesters were synthesized by successive use of benzyl alcohol, ethylene glycol, glycerol and pentaerythritol as initiator alcohols, and the products were fully characterized by 1H and 13C{1H} NMR spectroscopy, gel permeation chromatography (GPC), and differential scanning calorimetry (DSC). BMIM-2-CO2 acts as an N-heterocyclic carbene precursor, resulting from in situ decarboxylation, either by heating under vacuo (method A) or by addition of NaBPh4 (method B)…

N-heterocarbene precursorLactideLetterOrganic ChemistryRing-opening polymerizationPentaerythritollcsh:QD241-441chemistry.chemical_compoundChemistryimidazolium-2-carboxylateschemistryPolymerizationlcsh:Organic chemistryBenzyl alcoholgreen polymerization reactionPolymer chemistryaliphatic polyestersOrganic chemistrylcsh:QorganocatalysisCarboxylatelcsh:ScienceCaprolactoneEthylene glycolBeilstein Journal of Organic Chemistry
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1993

Nonlinear opticalChemistryAmphiphilePolymer chemistryMonolayerNonlinear opticsRing-opening metathesis polymerisationReactivity (chemistry)ChromophoreRing-opening polymerizationDie Makromolekulare Chemie, Rapid Communications
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Stereocomplex Formation in Polylactide Multiarm Stars and Comb Copolymers with Linear and Hyperbranched Multifunctional PEG

2013

Poly ethylene glycolMaterials sciencePolymers and PlasticsOrganic ChemistryHyperbranched polymersPolymer chemistryPEG ratioMaterials ChemistryCopolymerPhysical and Theoretical ChemistryCondensed Matter PhysicsPoly(lactide)Ring-opening polymerizationMacromolecular Chemistry and Physics
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Core–shell-type multiarm star polyethylenimine-block-poly(ɛ-caprolactone): Synthesis and guest encapsulation potential

2006

Novel multiarm star copolymers with poly(e-caprolactone) (PCL) as the arms and hyperbranched polyethylenimine (HPEI) as the core have been successfully prepared by the tin(II) 2-ethylhexanoate catalyzed ring-opening polymerization of e-caprolactone (CL) with HPEI used directly as a macroinitiator. Not only primary but also secondary amine groups of HPEI participate in initiating the ring-opening polymerization of CL with almost 100% initiation efficiency. The average degree of polymerization of the PCL arms can be controlled by the feed ratio of the monomers to the initiating sites. Because of the polarity difference of the PCL arms and HPEI core, the obtained multiarm star polymers display…

PolyethyleniminePolymers and PlasticsOrganic ChemistryDegree of polymerizationRing-opening polymerizationchemistry.chemical_compoundMonomerchemistryPolymerizationPolymer chemistryMaterials ChemistryCopolymerAmine gas treatingCaprolactoneJournal of Polymer Science Part A: Polymer Chemistry
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The Influence of Intramolecular Coordination and Ring Strain on the Polymerization Potential of Cyclic Stannasiloxanes

2008

PolymerizationChemistryIntramolecular forcePhotochemistryX ray analysisRing-opening polymerizationRing strain
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Racemic S ‐(ethylsulfonyl)‐ dl ‐cysteine N ‐Carboxyanhydrides Improve Chain Lengths and Monomer Conversion for β‐Sheet‐Controlled Ring‐Opening Polyme…

2020

The secondary structure formation of polypeptides not only governs folding and solution self-assembly but also affects the nucleophilic ring-opening polymerization of alpha-amino acid-N-carboxyanhydrides (NCAs). Whereby helical structures are known to enhance polymerization rates, beta-sheet-like assemblies reduce the propagation rate or may even terminate chain growth by precipitation or gelation. To overcome these unfavorable properties, racemic mixtures of NCAs can be applied. In this work, racemicS-(ethylsulfonyl)-dl-cysteine NCA is investigated for the synthesis of polypeptides, diblock and triblock copolypept(o)ides. In contrast to the polymerization of stereoregularS-(ethylsulfonyl)-…

Polymers and PlasticsChemistryOrganic ChemistryBeta sheet02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesRing-opening polymerizationPolymerization0104 chemical scienceschemistry.chemical_compoundMonomerReaction rate constantPolymerizationNucleophileYield (chemistry)Polymer chemistryMaterials ChemistryCopolymerProtein Conformation beta-StrandCysteineAmino AcidsPeptides0210 nano-technologyMacromolecular Rapid Communications
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Hydroxyfunctional oxetane-inimers with varied polarity for the synthesis of hyperbranched polyether polyols via cationic ROP

2014

Polymers and PlasticsChemistryOrganic ChemistryCationic polymerizationChain transferOxetaneRing-opening polymerizationchemistry.chemical_compoundChain-growth polymerizationPolymerizationPolymer chemistryMaterials ChemistryOrganic chemistryReversible addition−fragmentation chain-transfer polymerizationIonic polymerizationJournal of Polymer Science Part A: Polymer Chemistry
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Polyether Core-Shell Cylinder-Polymerization of Polyglycidol Macromonomers

2005

The synthesis and polymerization of macromonomers containing a polymerizable styrene head group and a tail of ethylene oxide derivatives of different character were investigated. The synthesis of macromonomers was based on living anionic polymerization of oxiranes. Two monomers were used: 1-ethoxyethyl glycidyl ether (glycidol acetal), which after hydrolysis forms hydrophilic glycidol blocks and glycidyl phenyl ether forming hydrophobic blocks. Polymerizable double bonds were introduced by terminating the living chain with p-(chloromethyl)styrene. The radical polymerization of the macromonomers was carried out in water with addition of a non-polar solvent (benzene) and AIBN as initiator. Co…

Polymers and PlasticsChemistryOrganic ChemistryRadical polymerizationCondensed Matter PhysicsMacromonomerRing-opening polymerizationLiving free-radical polymerizationAnionic addition polymerizationPolymerizationPolymer chemistryMaterials ChemistryCopolymerOrganic chemistryPhysical and Theoretical ChemistryLiving anionic polymerizationMacromolecular Chemistry and Physics
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Ring-opening polymerization of lactides using heterobimetallic yttrocene complexes

1999

Structurally characterized, chiral heterobimetallic yttrocene derivatives Li[Y(η 5 :η 1 -C 5 R 4 Si-Me 2 NCH 2 CH 2 OMe) 2 ] (R = Me, H) have been shown to be active in the controlled ring-opening polymerization of L-lactide to give poly(L-lactide)s with high molecular weights and moderately narrow molecular weight distributions (M w /M n < 1.50). Both transesterification and racemization appear to be less prominent. 'H NMR spectroscopic tetrad analysis of copolymers prepared using a mixture of L- and D-lactide demonstrates the absence of any preference for one enantiomer during the polymerization.

Polymers and PlasticsChemistryOrganic ChemistrySolution polymerizationCondensed Matter PhysicsRing-opening polymerizationchemistry.chemical_compoundPolymerizationPolymer chemistryMaterials ChemistryProton NMRCopolymerPhysical and Theoretical ChemistryEnantiomerMetalloceneRacemizationMacromolecular Chemistry and Physics
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Synthesis and characterization of optically active 2,4-disubstituted-2-oxazolines and their polymerization

1994

Four different optically active 2,4-disubstituted-2-oxazolines were synthesized and characterized. Cationic polymerization of these oxazolines were studied. Three of the oxazolines could be polymerized using methyl trifluoromethanesulfonate as initiator. S-(–)-2-Phenyl-4-isopropyl-2-oxazoline could not be polymerized under the conditions used.

Polymers and PlasticsChemistryOrganic Chemistrytechnology industry and agricultureCationic polymerizationmacromolecular substancesOptically activeRing-opening polymerizationCharacterization (materials science)chemistry.chemical_compoundPolymerizationPolymer chemistryMaterials ChemistryOrganic chemistryMethyl trifluoromethanesulfonatePolymer International
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