Publication | Closed Access
New Click Chemistry: Click Polymerization via 1,3-Dipolar Addition of Homo-ditopic Aromatic Nitrile Oxides Formed In Situ
51
Citations
8
References
2008
Year
Organic Material ChemistryChemical EngineeringMolecular SievesEngineeringPolymer ScienceClick PolymerizationOrganic Chemistry1,3-Dipolar Addition1,3-Dipolar PolycycloadditionClick ChemistryChemistryPolymerization KineticsBiomolecular EngineeringNew Click ChemistryPolymer ReactionPolymer ChemistryPolymer SynthesisPolymers
Abstract New click chemistry is demonstrated. Click polymerization proceeded via 1,3-dipolar polycycloaddition of homo-ditopic nitrile oxides to bifunctional terminal olefinic and acetylenic monomers as dipolarophiles. Molecular sieves (MS 4A) served as an efficient promoter for the polymerization to afford polyisoxazolines and polyisoxazoles in high yields.
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