Effect of Electron Donors on the Radical Polymerization of Vinyl Acetate Mediated by [Co(acac)2]: Degenerative Transfer versus Reversible Homolytic Cleavage of an Organocobalt(III) Complex

Effect of Electron Donors on the Radical Polymerization of Vinyl Acetate Mediated by [Co(acac)2]: Degenerative Transfer versus Reversible Homolytic Cleavage of an Organocobalt(III) Complex

The molecular structure of bis(acetylacetonate)cobalt(II) ([Co(acac)2]) in solution and in the presence of the electron donors (ED) pyridine (py), NEt3, and vinyl acetate (VOAc) was investigated using 1H NMR spectroscopy in C6D6. The extent of formation of ligand adducts, [Co(acac)2(ED)x], varies in...

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Veröffentlicht in:Chemistry : a European journal 2007-01, Vol.13 (9), p.2480-2492
Hauptverfasser: Maria, Sébastien, Kaneyoshi, Hiromu, Matyjaszewski, Krzysztof, Poli, Rinaldo
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bond cleavage
Catalysis
Chemical Sciences
cobalt
Coordination chemistry
degenerative transfer
density functional calculations
Polymers
radical polymerization
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container_issue 9
container_start_page 2480
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creator Maria, Sébastien
Kaneyoshi, Hiromu
Matyjaszewski, Krzysztof
Poli, Rinaldo
description The molecular structure of bis(acetylacetonate)cobalt(II) ([Co(acac)2]) in solution and in the presence of the electron donors (ED) pyridine (py), NEt3, and vinyl acetate (VOAc) was investigated using 1H NMR spectroscopy in C6D6. The extent of formation of ligand adducts, [Co(acac)2(ED)x], varies in the order py>NEt3>VOAc (no interaction). Density functional theory (DFT) calculations on a model system agree with CoED bond strengths decreasing in the same order. The effect of electron donors on the [Co(acac)2]‐mediated radical polymerization of VOAc was examined at 30 °C by the addition of excess py or NEt3 to the complex in the molar ratio [VOAc]0/[Co]0/[V‐70]0/[py or NEt3]0=500:1:1:30 (V‐70=2,2′‐azobis(4‐methoxy‐2,4‐dimethylvaleronitrile)). As previously reported by R. Jerome et al., the polymerization showed long induction periods in the absence of ED. However, a controlled polymerization without an induction period took place in the presence of ED, though the level of control was poorer. The effective polymerization rate decreased in the order py>NEt3. A similar behavior was found when these electron donors were added to an ongoing [Co(acac)2]‐mediated radical polymerization of VOAc. On the basis of the NMR and DFT studies, it is proposed that the polymerization is controlled by the reversible homolytic cleavage of an organocobalt(III) dormant species in the presence of ED. Conversely, the faster polymerization after the induction period in the absence of ED is due to a degenerative transfer process with the radicals produced by the continuous decomposition of the excess initiator. Complementary experiments provide additional results in agreement with this interpretation. Controlling polymerization mechanisms: A new interplay between different mechanisms in controlled radical polymerization is revealed. Coordination of the cobalt center by neutral electron donors switches the process from a degenerative transfer (DT), featuring an associative radical exchange, to an organometallic radical polymerization (OMRP), featuring a dissociative equilibrium for the CoIII‐terminated dormant chain (see scheme).
doi_str_mv 10.1002/chem.200601457
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The extent of formation of ligand adducts, [Co(acac)2(ED)x], varies in the order py&gt;NEt3&gt;VOAc (no interaction). Density functional theory (DFT) calculations on a model system agree with CoED bond strengths decreasing in the same order. The effect of electron donors on the [Co(acac)2]‐mediated radical polymerization of VOAc was examined at 30 °C by the addition of excess py or NEt3 to the complex in the molar ratio [VOAc]0/[Co]0/[V‐70]0/[py or NEt3]0=500:1:1:30 (V‐70=2,2′‐azobis(4‐methoxy‐2,4‐dimethylvaleronitrile)). As previously reported by R. Jerome et al., the polymerization showed long induction periods in the absence of ED. However, a controlled polymerization without an induction period took place in the presence of ED, though the level of control was poorer. The effective polymerization rate decreased in the order py&gt;NEt3. A similar behavior was found when these electron donors were added to an ongoing [Co(acac)2]‐mediated radical polymerization of VOAc. On the basis of the NMR and DFT studies, it is proposed that the polymerization is controlled by the reversible homolytic cleavage of an organocobalt(III) dormant species in the presence of ED. Conversely, the faster polymerization after the induction period in the absence of ED is due to a degenerative transfer process with the radicals produced by the continuous decomposition of the excess initiator. Complementary experiments provide additional results in agreement with this interpretation. Controlling polymerization mechanisms: A new interplay between different mechanisms in controlled radical polymerization is revealed. 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The extent of formation of ligand adducts, [Co(acac)2(ED)x], varies in the order py&gt;NEt3&gt;VOAc (no interaction). Density functional theory (DFT) calculations on a model system agree with CoED bond strengths decreasing in the same order. The effect of electron donors on the [Co(acac)2]‐mediated radical polymerization of VOAc was examined at 30 °C by the addition of excess py or NEt3 to the complex in the molar ratio [VOAc]0/[Co]0/[V‐70]0/[py or NEt3]0=500:1:1:30 (V‐70=2,2′‐azobis(4‐methoxy‐2,4‐dimethylvaleronitrile)). As previously reported by R. Jerome et al., the polymerization showed long induction periods in the absence of ED. However, a controlled polymerization without an induction period took place in the presence of ED, though the level of control was poorer. The effective polymerization rate decreased in the order py&gt;NEt3. A similar behavior was found when these electron donors were added to an ongoing [Co(acac)2]‐mediated radical polymerization of VOAc. On the basis of the NMR and DFT studies, it is proposed that the polymerization is controlled by the reversible homolytic cleavage of an organocobalt(III) dormant species in the presence of ED. Conversely, the faster polymerization after the induction period in the absence of ED is due to a degenerative transfer process with the radicals produced by the continuous decomposition of the excess initiator. Complementary experiments provide additional results in agreement with this interpretation. Controlling polymerization mechanisms: A new interplay between different mechanisms in controlled radical polymerization is revealed. 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The extent of formation of ligand adducts, [Co(acac)2(ED)x], varies in the order py&gt;NEt3&gt;VOAc (no interaction). Density functional theory (DFT) calculations on a model system agree with CoED bond strengths decreasing in the same order. The effect of electron donors on the [Co(acac)2]‐mediated radical polymerization of VOAc was examined at 30 °C by the addition of excess py or NEt3 to the complex in the molar ratio [VOAc]0/[Co]0/[V‐70]0/[py or NEt3]0=500:1:1:30 (V‐70=2,2′‐azobis(4‐methoxy‐2,4‐dimethylvaleronitrile)). As previously reported by R. Jerome et al., the polymerization showed long induction periods in the absence of ED. However, a controlled polymerization without an induction period took place in the presence of ED, though the level of control was poorer. The effective polymerization rate decreased in the order py&gt;NEt3. A similar behavior was found when these electron donors were added to an ongoing [Co(acac)2]‐mediated radical polymerization of VOAc. On the basis of the NMR and DFT studies, it is proposed that the polymerization is controlled by the reversible homolytic cleavage of an organocobalt(III) dormant species in the presence of ED. Conversely, the faster polymerization after the induction period in the absence of ED is due to a degenerative transfer process with the radicals produced by the continuous decomposition of the excess initiator. Complementary experiments provide additional results in agreement with this interpretation. Controlling polymerization mechanisms: A new interplay between different mechanisms in controlled radical polymerization is revealed. Coordination of the cobalt center by neutral electron donors switches the process from a degenerative transfer (DT), featuring an associative radical exchange, to an organometallic radical polymerization (OMRP), featuring a dissociative equilibrium for the CoIII‐terminated dormant chain (see scheme).</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><pmid>17278168</pmid><doi>10.1002/chem.200601457</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0002-5220-2515</orcidid><oa>free_for_read</oa></addata></record>
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subjects bond cleavage
Catalysis
Chemical Sciences
cobalt
Coordination chemistry
degenerative transfer
density functional calculations
Polymers
radical polymerization
title Effect of Electron Donors on the Radical Polymerization of Vinyl Acetate Mediated by [Co(acac)2]: Degenerative Transfer versus Reversible Homolytic Cleavage of an Organocobalt(III) Complex
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