Bidentate forms of β-triketimines: syntheses, characterization and outstanding performance of enamine–diimine cobalt complexes in isoprene polymerization

Alnajrani, Mohammed N.; Mair, Francis S.

doi:10.1039/c6dt01064d

Cited by 25 publications

(14 citation statements)

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“…Very recently, Huang and other groups reported Co(II) complexes for isoprene polymerization that offer high activity, precise control over the molecular weight and high cis ‐1,4‐alt‐3,4 microstructures . Alnajrani group reported β‐triketimine coordinated Co(II) complexes that gave the highest Co(II) activity (6 × 10 5 g·mol −1 ·h −1 ) for isoprene polymerization and generated predominantly cis ‐1,4 polymer with variable degree of 3,4‐regioisomers (10–20%) …”

Section: Introductionmentioning

confidence: 99%

“…Electron‐withdrawing substituents of N ‐aryl groups not only enhance the activity but also improve the cis ‐1,4 selectivity ( η 4 coordination) . To control the regio−/stereoselectivity of polyisoprene, less sterically crowded N,N‐bidentate ligands showed more potential than the N,N,N‐tridentate ligands such as β‐triimines …”

Section: Introductionmentioning

confidence: 99%

“…58,59 Alnajrani group reported β-triketimine coordinated Co(II) complexes that gave the highest Co(II) activity (6 × 10 5 gÁmol −1 Áh −1 ) for isoprene polymerization and generated predominantly cis-1,4 polymer with variable degree of 3,4-regioisomers (10-20%). 60 In general, the steric and electronic substituents of the ligands play a key role in the catalytic performance and properties of the resultant polyisoprene. Particularly, the coordination mode of the ligand is the most important to control the streoselectivities of the isoprene.…”

mentioning

confidence: 99%

“…68 To control the regio−/stereoselectivity of polyisoprene, less sterically crowded N,N-bidentate ligands showed more potential than the N,N,N-tridentate ligands such as β-triimines. 60 Herein, we described the synthesis and characterization of a series of iminoimidazole Co(II) and Fe(II) complexes and tailored the catalysts with different substituents ranging from electron donating to the electron withdrawing to find the best couple of steric and electronic influences for the high productivities. To ascertain the effects of different reaction parameters such as co-catalyst effect, Al/Co ratio.…”

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confidence: 99%

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Iminoimidazole‐based Co(II) and Fe(II) complexes: Syntheses, characterization, and catalytic behaviors for isoprene polymerization

Zhang

Zhu

Mahmood

et al. 2019

J. Polym. Sci. Part A: Polym. Chem.

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A stereoselectivity switchable polymerization of isoprene has been developed, which is catalyzed by iminoimidazole‐Co(II) and ‐Fe(II) complexes. The influence of substituents ranging from electron donating to the electron withdrawing on the iminoimidazole‐Co(II) and ‐Fe(II) catalysts is investigated for isoprene polymerization. Two sets of iminoimidazole‐Co(II) and ‐Fe(II) complexes have been prepared and fully characterized. X‐ray crystallography analysis reveals that the complexes Co1 and Fe1 adopt distorted tetrahedral geometries. In the presence of AlEt2Cl as co‐catalyst, all the Co(II) complexes are active and the catalytic activity is highly dependent on the molar ratio of Al/Co. All the Co(II) complexes exhibit higher activities at low Al/Co ratio. Compared with the Co(II) complexes, the Fe(II) complexes are essentially inactive under the identical condition. However, on activation with combination of AlEtCl2 and [Ph3C][B(C6F5)4], both Co(II) and Fe(II) complexes display high activities with good conversions of isoprene (up to >99%). Additionally, low molecular weight and high trans‐1,4‐unit (>96%) selectivity are characteristics of the resultant polyisoprene. © 2019 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2019, 57, 767–775

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Iminoimidazole‐based Co(II) and Fe(II) complexes: Syntheses, characterization, and catalytic behaviors for isoprene polymerization

Zhang

Zhu

Mahmood

et al. 2019

J. Polym. Sci. Part A: Polym. Chem.

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“…Metal‐catalyzed selective isoprene polymerization has been a major entry toward cis ‐1,4, trans ‐1,4, and 3,4 isomers (Scheme ). Ziegler‐Natta type of titanium and neodymium, metallocenes (Cp: cyclopentadienyl and its derivatives) type of titanium and rare earth metal catalysts, non‐Cp ligated lanthanide alkylaluminates, multi‐dentated PNP, or NCN ligand chelated rare earth metal complexes, and cobalt complexes supported by multi‐dentate ligand have been extensively explored for cis ‐1,4 polymerization. The resultant polymer could be a promising alternative to natural rubber for tire industry.…”

Section: Introductionmentioning

confidence: 99%

1,2 Enriched polymerization of isoprene by cobalt complex carrying aminophosphory fused (PN³) ligand

Jia

Zhang

Gong

2018

J. Polym. Sci. Part A: Polym. Chem.

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Metal‐catalyzed selective isoprene polymerization has been a major entry toward cis‐1,4, trans‐1,4, and 3,4 isomers of polyisoprene, however, 1,2 selective polymerization of isoprene has not yet been achieved due to the steric problem. In this work, difluoro cobalt complexes carrying aminophosphory (‐HN‐P(=O) tBu2‐) fused pyrazol‐pyridine ligand has been prepared and characterized. In combination with Mgn‐Bu2, the formed catalyst unprecedentedly converts isoprene to polyisoprene with 1,2 enchainment up to 50 mol% in a molecular weight controlled polymerization mode. The resultant polymers are fully characterized by NMR, IR, DSC, and GPC. The 1,2 incorporation of polyisoprene is weakly dependent on feeding of Mgn‐Bu2 and reaction temperature. The weak affinity between Mg2+ and allylic terminal of propagating chain is possible for the unique 1,2 irregular insertion and non‐irreversible chain transfer and termination reactions throughout the chain propagation. The ability of current catalyst demonstrates a big advantage for application in the development of 1,2 selective polymerization of isoprene, and a potential for access to a new family of polyisoprene. © 2018 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2018, 56, 2286–2293

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Controlled isoprene polymerization mediated by iminopyridine‐iron (II) acetylacetonate pre‐catalysts

Zhao

Wang

Mahmood

et al. 2019

Applied Organom Chemis

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A ligand controlled stereoselective polymerization of isoprene has been developed. A series of (aryl/alkyl)‐iminopyridine iron (II) acetylacetonate complexes: (aryl = Ph Fe1; alkyl = CH2Ph Fe2, CH (Ph)2 Fe3, CH (Me)2 Fe4, C (Me)3 Fe5, C (Me)2CH2C(Me)3 Fe6), has been prepared in which steric and electronic substituents systematically modified to investigate their influences for isoprene polymerization. The molecular structure of representative complex Fe2 was confirmed by single crystal X‐ray diffraction and, revealed a distorted octahedral geometry at iron center. On treatment with methylaluminoxane (MAO), Fe1–Fe6 displayed low (Fe5 & Fe6) to high activities (Fe1–Fe4) with quantitative monomer conversion (>99%) for isoprene polymerization producing polyisoprene of high molecular weight (up to 2.0 × 105 g/mol) and unimodal molecular weight distribution (1.4–3.3). Specifically, complex Fe2 (alkyl = CH2Ph) displayed the highest activity of 7.0 × 106 g (mol of Fe)−1 h−1 with 85% conversion of monomer over run time of 10 min at 25 °C. While, Fe6 catalyzed polyisoprene possessed high content of trans‐1,4 unit (up to 87%). Furthermore, the influence of the reaction parameters and the nature of the ligands on the catalytic activities and microstructural properties of the polymer were investigated in detail.

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Bidentate forms of β-triketimines: syntheses, characterization and outstanding performance of enamine–diimine cobalt complexes in isoprene polymerization

Cited by 25 publications

References 68 publications

Iminoimidazole‐based Co(II) and Fe(II) complexes: Syntheses, characterization, and catalytic behaviors for isoprene polymerization

Iminoimidazole‐based Co(II) and Fe(II) complexes: Syntheses, characterization, and catalytic behaviors for isoprene polymerization

1,2 Enriched polymerization of isoprene by cobalt complex carrying aminophosphory fused (PN³) ligand

Controlled isoprene polymerization mediated by iminopyridine‐iron (II) acetylacetonate pre‐catalysts

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Bidentate forms of β-triketimines: syntheses, characterization and outstanding performance of enamine–diimine cobalt complexes in isoprene polymerization

Cited by 25 publications

References 68 publications

Iminoimidazole‐based Co(II) and Fe(II) complexes: Syntheses, characterization, and catalytic behaviors for isoprene polymerization

Iminoimidazole‐based Co(II) and Fe(II) complexes: Syntheses, characterization, and catalytic behaviors for isoprene polymerization

1,2 Enriched polymerization of isoprene by cobalt complex carrying aminophosphory fused (PN3) ligand

Controlled isoprene polymerization mediated by iminopyridine‐iron (II) acetylacetonate pre‐catalysts

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1,2 Enriched polymerization of isoprene by cobalt complex carrying aminophosphory fused (PN³) ligand