Marcel Teerenstra scite author profile

Marcel Teerenstra

5Publications

101Citation Statements Received

67Citation Statements Given

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Affiliations

Vrije Universiteit Brussel

Publications

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A novel approach to soluble polystyrenes functionalized by tri-n-butyltin carboxylates

Dalil

Biesemans

Teerenstra

et al. 2000

Macromol. Chem. Phys.

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The methyl esters (5 a and 5 b) of two ω‐(para styryl)alkanoic acids, 3‐p‐styryl propionic and 5‐p‐styryl pentanoic acid, were respectively synthesized from 3‐phenyl propionic acid and 5‐phenyl pentanoic acid in four reaction steps. These esters have been submitted to radical copolymerization with styrene affording the corresponding copolymers. The methyl ester functions were subsequently converted into the tri‐n‐butyltin carboxylates using bis(tributyltin) oxide. This approach by‐passes complications of radical polymerization inhibition due to the presence of tin in the monomers. It also avoids undesired, uncontrolled early stage polymerization of styryl moieties during the hydrolysis of the methyl esters into the corresponding carboxylic acid precursors of the monomeric tin carboxylates. Finally, it reduces significantly the polymerization time. Characterizations of the tin functionalized polymers in solution and solid state by NMR, IR and thermal techniques allow us to conclude that the tin atoms are tetracoordinated.

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Controlled stereochemistry of polyamides derived fromcis/trans-1,4-cyclohexanedicarboxylic acid

Vanhaecht

Teerenstra²,

Suwier³

et al. 2001

J. Polym. Sci. A Polym. Chem.

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A series of copolyamides 12.y was synthesized either with y = 6, or 1,4‐cyclohexanedicarboxylic acid (1,4‐CHDA) residue, or a mixture of both. The influence of the synthetic route of 1,4‐CHDA containing polyamides on the obtained cis–trans ratio of the incorporated 1,4‐CHDA was investigated. The use of acid chlorides provided a synthetic route with full control of the cis–trans ratio of the 1,4‐CHDA residue during synthesis, whereas synthesis at elevated pressure and temperature caused isomerization. The content and cis–trans ratio of 1,4‐CHDA in the copolyamides were determined by solution 13C NMR spectroscopy. Increasing the degree of partial substitution of the adipic acid by 1,4‐CHDA resulted in an increase in Tm, even for low molar precentages of 1,4‐CHDA. This phenomenon points to isomorphous crystallization of both the 12.6 and 12.CHDA repeating units. The mps of the synthesized polyamides were independent of the initial cis–trans ratio of 1,4‐CHDA, provided that the samples were annealed at 300 °C before DSC analysis. The polyamides exhibited a different melting pattern depending on the 1,4‐CHDA content. At a low a 1,4‐CHDA content a net exothermic recrystallization occurred during melting, whereas at higher contents of 1,4‐CHDA this recrystallization occurs to a lesser extent, and two separate melting areas are observed. © 2001 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 39: 833–840, 2001

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Flexibilized styrene-N-substituted maleimide copolymers. II. Multiblock copolymers prepared from PTHF-based iniferters

Suwier¹,

Teerenstra²,

Vanhaecht

et al. 2000

J. Polym. Sci. A Polym. Chem.

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This article describes the synthesis and molecular characterization of thermal polymeric iniferters, based on hydroxy‐terminated poly(tetrahydrofuran) (PTHF), bearing thiuram disulfide groups along the chain. Thermal polymerization after the addition of styrene (S) and N‐methylmaleimide (MI) to these PTHF‐based polymeric iniferters yielded segmented PTHF (SMI‐block‐PTHF)n block copolymers that proved to have a single Tg. The multiblock copolymers were molecularly characterized by elemental analysis, IR, and NMR. The thermal stability, as checked by thermogravimetric analysis, proved to be good up to about 350 °C. A size exclusion chromatography/differential viscosity (DV) analysis showed that the molecular weights of the synthesized single‐phase multiblock copolymers were sufficiently high (several times the estimated molecular weight between two adjacent entanglements) to determine the entanglement density from the rubbery plateau modulus, for which the method developed by S. Wu (J Polym Sci Part B: Polym Phys 1989, 27, 723–741) was applied. The entanglement density of flexibilized SMI proved to be about 20–25% higher than that of the nonflexibilized SMI. This increase is disappointing, and more work, based on the described concept, is required to achieve the desired enhancement of the toughness. © 2000 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 38: 3558–3568, 2000

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Dicyclohexylcarbodiimide Assisted Synthesis of Aliphatic Polyesters at Room Temperature

Vanhaecht¹,

Teerenstra

Suwier

et al. 2000

Journal of Macromolecular Science, Part A

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On the entanglement density of differently N-substituted alternating styrene-maleimide copolymers

Teerenstra

Steeman²,

Iwens³

et al. 2003

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Differently N-substituted maleimides were copolymerized with styrene to yield alternating styrene-maleimide copolymers (SMI-R) with different chain diameters. The polymers were obtained by free radical polymerization and characterized by NMR and size exclusion chromatography / differential viscometry. Glass transition temperatures were measured by differential scanning calorimetry. An increase in chain diameter and chain stiffness is accompanied by a decrease in the entanglement density, reflected in lower values of the plateau modulus, which were corrected for the low molecular weight portion using the Wasserman/Graessley model. Increasing the chain diameter by a factor of two results in a decrease of the entanglement density to one third. SMI-Me showed a much lower entanglement density than polystyrene (PS) although they have the same chain diameter. SMIMe however is more rigid than PS because of the maleimide five-membered ring structure in the main chain. SMI-Me and SMI-PhOPh show the same glass transition temperature. However, because of the larger chain diameter of SMIPhOPh, it has a much lower entanglement density. Thus, both the chain flexibility and the chain diameter, two parameters that are strongly related, affect the entanglement density.

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