Synthesis of Hyperbranched Polyphenylene with High Degree of Polymerization and 100% Degree of Branching from A₂ + B₃ Suzuki-Miyaura Polycondensation through Intramolecular Catalyst Transfer

Citations Over Time

Abstract

Suzuki-Miyaura polycondensation of tribromobenzene and p-phenylenediboronic acid ester in the presence of tBu3PPd precatalyst afforded hyperbranched polyphenylene with 100% degree of branching and a much higher degree of polymerization than predicted by the Flory-Stockmayer theory. Based on the result of a model reaction of tribromobenzene with phenyboronic acid in the presence of the same Pd catalyst, this polymerization behavior is probably due to successive tri-substitution of tribromobenzene with the boronate in the monomer and oligomers through intramolecular Pd-catalyst transfer. Suzuki-Miyaura polycondensation of tribromobenzene and p-phenylenediboronic acid ester in the presence of tBu3PPd precatalyst afforded hyperbranched polyphenylene with 100% degree of branching and a much higher degree of polymerization than predicted by the Flory-Stockmayer theory. Based on the result of a model reaction, this polymerization behavior is due to successive tri-substitution of tribromobenzene with the boronate through intramolecular Pd-catalyst transfer.

Related Papers

• → POSS dendrimers constructed from a 1 → 7 branching monomer(2014)53 cited
• → Kinetic Evaluation of Hyperbranched A₂ + B₃ Polycondensation Reactions(2003)51 cited
• → Synthesis of Hyperbranched Polymer Using Slow Monomer Addition Method(2012)18 cited
• → Functionality of monomers and structure of polymers obtained by polycondensation. Review(1982)6 cited
• → Branched Poly(ethyleneterephthalate)(2001)