Living Organotitanium(IV)-Catalyzed Polymerizations of Isocyanates

Patten, Timothy E.; Novak, Bruce M.

doi:10.1021/ja9534516

Cited by 114 publications

(125 citation statements)

References 69 publications

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“…31 The details for preparation were described in the previous papers. 27,28 To make a calibration curve in an SEC with a series of PHIC's as a standard, five PHIC samples with a broad molecular weight distribution were prepared by an anionic polymerization of HIC using a sodium naphthalenide as an initiator in THF at À78 C. They were fractionated by repeating fractional precipitation with benzene as a solvent and methanol as a precipitant.…”

Section: Methodsmentioning

confidence: 99%

Characterization of Rodlike Poly(n-hexyl isocyanate) Macromonomers and Their Polymacromonomers by Light Scattering, SAXS, Intrinsic Viscosity, and Scanning Force Microscopy

Kikuchi

Mihara

Jinbo

et al. 2007

Polym J

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ABSTRACT:SEC-MALS, small-angle X-ray scattering (SAXS), and viscosity measurements were made on tetrahydrofuran (THF) and n-hexane of a series of 4-vinylbenzyl and methacrylate ended poly(n-hexyl isocyanate) (PHIC) macromonomers (VB-HIC-n and MA-HIC-n, where n is a degree of polymerization of HIC and in a range from 21 to 192), together with higher molecular weight PHIC chains than the macromonomers. The molecular weight dependence of z-average mean-square radius of gyration hRg 2 i z and intrinsic viscosity [] of the macromonomers and PHIC chains in THF at 25 C were quantitatively described by the wormlike chain model with the stiffness parameter ð À1 Þ ¼ 63 nm, the molecular weight per unit contour length ðM L Þ ¼ 725 nm À1 , and the hydrodynamic diameter ðd B Þ ¼ 1:6 nm. The SAXS scattering profile of VB-HIC-57 in n-hexane at 25 C was also perfectly described in terms of the straight cylinder model. The results imply that the macromonomers may be regarded as a rigid rod molecule in THF and n-hexane. Cylindrical brushes consisting of polystyrene as a main chain and PHIC chains as a side chain were prepared by homopolymerizations of VB-HIC-46 and their dimensional properties were investigated in THF at 25 C by SAXS and SEC-MALS measurements. The molecular weight dependence of hRg 2 i z of the brushes was quantitatively explained by the wormlike cylinder model with the parameters of À1 ¼ 48 nm, M L ¼ 2:40 Â 10 4 nm À1 , the cross-sectional radius of gyration of the cylinder hRc 2 i o 1=2 ¼ 4:66 nm, and the end effect ( ¼ 16:7 nm) arising from side chains near the mainchain ends. It was concluded, therefore, that the main chain stiffness of the brush remarkably increases by the presence of densely located rodlike side chains. Direct observation of single brush of the poly(VB-HIC-46) deposited on a mica was made by scanning force microscopy (SFM) to reveal the cylindrical brushes consisting of rodlike side chains with ca. 15 nm in a thickness.

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Section: Methodsmentioning

confidence: 99%

Characterization of Rodlike Poly(n-hexyl isocyanate) Macromonomers and Their Polymacromonomers by Light Scattering, SAXS, Intrinsic Viscosity, and Scanning Force Microscopy

Kikuchi

Mihara

Jinbo

et al. 2007

Polym J

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“…With respect to polymerization catalysis, complexes like 12 are relevant to more recent examples using TiCl 3 OCH 2 CF 3 and CpTiCl 2 L [L = -OCH 2 CF 3 , -N-(CH 3 ) 2 , -CH 3 ] as catalysts for the living polymerization of isocyanates. [53] It was proposed, based on IR spectroscopic analysis, that the propagating endgroup during chain growth is an amidate-Ti complex, 13 ( Figure 6), with a chelating bonding motif. [53] There have only been a few reports of titanium amidate chelates that were not formed as intermediates in organometallic reactions.…”

Section: Chelatingmentioning

confidence: 99%

“…[53] It was proposed, based on IR spectroscopic analysis, that the propagating endgroup during chain growth is an amidate-Ti complex, 13 ( Figure 6), with a chelating bonding motif. [53] There have only been a few reports of titanium amidate chelates that were not formed as intermediates in organometallic reactions. One example includes the use of caprolactam as a precursor to form the titanium complex 14 (Figure 7), which is postulated to be an intermediate in the ringopening polymerization of lactams to form polyamides.…”

Section: Chelatingmentioning

confidence: 99%

Modular N,O‐Chelating Ligands: Group‐4 Amidate Complexes for Catalytic Hydroamination

Lee

Schafer

2007

Eur J Inorg Chem

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“…1 These complexes have been employed for the synthesis of more complex macromolecular architectures containing polyisocyanate blocks, such as diblock copolymers, triblock terpolymers, graft copolymers, and miktoarm star copolymers. 2 Poly(hexyl isocyanate) has also been grafted from carbon nanotubes by an anchored half-titanocene complex.…”

mentioning

confidence: 99%

Synthesis and characterization of chiral poly(alkyl isocyanates) by coordination polymerization using a chiral half‐titanocene complex

Choinopoulos

Koïnis

Pitsikalis

2015

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

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A new chiral half-titanocene complex, [CpTiCl 2 (O-(S)22-Bu)], is synthesized and characterized by 1 H and 13 C NMR spectroscopy. This complex is employed for the coordination polymerization of n-butyl and n-hexyl-isocyanate leading to chiral polymers, as revealed by their CD spectra. Only the left-handed helix is produced, due to the chiral (S)22-butoxy group, which is bound to the polymer chain end. The polymerization of 3-(triethoxysilyl)propyl isocyanate produces less soluble polymers. On the other hand, phenyl isocyanate reacts slowly with the complex leading quantitatively and selectively to triphenyl isocyanurate. 2-Ethylhexyl isocyanate is slowly and selectively cyclotrimerized in the presence of the half-titanocene complex. However, a statistical copolymer of 2-ethylhexyl isocyanate and hexyl isocyanate is produced. The reaction of benzyl isocyanate with the complex leads to a mixture of low molecular weight polymer and cyclotrimer. The polymers are characterized using SEC, NMR, and CD spectroscopy and their thermal properties are investigated by TGA/DSC analysis.

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Living Organotitanium(IV)-Catalyzed Polymerizations of Isocyanates

Cited by 114 publications

References 69 publications

Characterization of Rodlike Poly(n-hexyl isocyanate) Macromonomers and Their Polymacromonomers by Light Scattering, SAXS, Intrinsic Viscosity, and Scanning Force Microscopy

Characterization of Rodlike Poly(n-hexyl isocyanate) Macromonomers and Their Polymacromonomers by Light Scattering, SAXS, Intrinsic Viscosity, and Scanning Force Microscopy

Modular N,O‐Chelating Ligands: Group‐4 Amidate Complexes for Catalytic Hydroamination

Synthesis and characterization of chiral poly(alkyl isocyanates) by coordination polymerization using a chiral half‐titanocene complex

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