Branched methacrylate copolymers from multifunctional monomers: chemical composition and physical architecture distributions

P.A. Costello; I.K. Martin; A.T. Slark; D.C. Sherrington; A. Titterton

doi:10.1016/S0032-3861(01)00581-X

Branched methacrylate copolymers from multifunctional monomers: chemical composition and physical architecture distributions

P.A. Costello, I.K. Martin, A.T. Slark, D.C. Sherrington, A. Titterton

Pure And Applied Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

Soluble, branched (meth)acrylic copolymers have been made via facile, one-step, batch solution polymerisations taken to high conversion. Methyl methacrylate has been copolymerised with a bifunctional monomer using a chain transfer agent to inhibit gelation. Conventional chain transfer using a mercaptan has been compared to catalytic chain transfer (CCT) using a cobalt porphyrin. The polymerisations have been monitored as a function of monomer conversion and the polymer prepared at high conversion has been fractionated across the molecular weight distribution. The polymerisations remain isotropic, with both the chemical composition and physical architecture distribution varying systematically as a function of monomer conversion and copolymer molecular weight. A mechanism for the polymerisation is proposed based on the experimental data.

Original language	English
Pages (from-to)	245-254
Number of pages	9
Journal	Polymer
Volume	43
Issue number	2
DOIs	https://doi.org/10.1016/S0032-3861(01)00581-X
Publication status	Published - Jan 2002

Keywords

free-radical polymerisation
branched architecture
(meth)acrylic polymers

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10.1016/S0032-3861(01)00581-X

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title = "Branched methacrylate copolymers from multifunctional monomers: chemical composition and physical architecture distributions",

abstract = "Soluble, branched (meth)acrylic copolymers have been made via facile, one-step, batch solution polymerisations taken to high conversion. Methyl methacrylate has been copolymerised with a bifunctional monomer using a chain transfer agent to inhibit gelation. Conventional chain transfer using a mercaptan has been compared to catalytic chain transfer (CCT) using a cobalt porphyrin. The polymerisations have been monitored as a function of monomer conversion and the polymer prepared at high conversion has been fractionated across the molecular weight distribution. The polymerisations remain isotropic, with both the chemical composition and physical architecture distribution varying systematically as a function of monomer conversion and copolymer molecular weight. A mechanism for the polymerisation is proposed based on the experimental data.",

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author = "P.A. Costello and I.K. Martin and A.T. Slark and D.C. Sherrington and A. Titterton",

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T1 - Branched methacrylate copolymers from multifunctional monomers: chemical composition and physical architecture distributions

AU - Costello, P.A.

AU - Martin, I.K.

AU - Slark, A.T.

AU - Sherrington, D.C.

AU - Titterton, A.

PY - 2002/1

Y1 - 2002/1

N2 - Soluble, branched (meth)acrylic copolymers have been made via facile, one-step, batch solution polymerisations taken to high conversion. Methyl methacrylate has been copolymerised with a bifunctional monomer using a chain transfer agent to inhibit gelation. Conventional chain transfer using a mercaptan has been compared to catalytic chain transfer (CCT) using a cobalt porphyrin. The polymerisations have been monitored as a function of monomer conversion and the polymer prepared at high conversion has been fractionated across the molecular weight distribution. The polymerisations remain isotropic, with both the chemical composition and physical architecture distribution varying systematically as a function of monomer conversion and copolymer molecular weight. A mechanism for the polymerisation is proposed based on the experimental data.

AB - Soluble, branched (meth)acrylic copolymers have been made via facile, one-step, batch solution polymerisations taken to high conversion. Methyl methacrylate has been copolymerised with a bifunctional monomer using a chain transfer agent to inhibit gelation. Conventional chain transfer using a mercaptan has been compared to catalytic chain transfer (CCT) using a cobalt porphyrin. The polymerisations have been monitored as a function of monomer conversion and the polymer prepared at high conversion has been fractionated across the molecular weight distribution. The polymerisations remain isotropic, with both the chemical composition and physical architecture distribution varying systematically as a function of monomer conversion and copolymer molecular weight. A mechanism for the polymerisation is proposed based on the experimental data.

KW - free-radical polymerisation

KW - branched architecture

KW - (meth)acrylic polymers

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U2 - 10.1016/S0032-3861(01)00581-X

DO - 10.1016/S0032-3861(01)00581-X

M3 - Article

SN - 0032-3861

VL - 43

SP - 245

EP - 254

JO - Polymer

JF - Polymer

IS - 2

ER -

Branched methacrylate copolymers from multifunctional monomers: chemical composition and physical architecture distributions

Abstract

Keywords

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