From thermoplastic elastomers to designed biomaterials

Kennedy, Joseph P.

doi:10.1002/pola.20844

Cited by 46 publications

(52 citation statements)

References 33 publications

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“…), PMMA is a technical polymer, used in many applications from house furnishing to optic fibers as well as in the building industry. As it is biocompatible, this polymer can also be involved in bone cement formulations, in drug delivery [1,2] and artificial nerves conduits [3] [2-hydroxyethyl methacrylate (HEMA)]. Considerable efforts have been devoted to improve the controlled polymerization of this kind of monomers, in terms of molecular characteristics, overall architecture, nature of end-groups, regio-and stereoselectivities, and particularly block the copolymer design.…”

Section: Introductionmentioning

confidence: 99%

Nitroxide‐Mediated Polymerization of Methyl Methacrylate Using an SG1‐Based Alkoxyamine: How the Penultimate Effect Could Lead to Uncontrolled and Unliving Polymerization

Guillaneuf¹,

Gigmès²,

Marque³

et al. 2006

Macro Chemistry & Physics

116

148

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Summary: The nitroxide‐mediated polymerization (NMP) of MMA initiated with a new crowded SG1‐based alkoxyamine was performed. Contrary to the results expected after a kinetic analysis (Fischer's diagram), the polymerization of MMA at 45 °C with SG1 showed only partial control and livingness during the first 15% of conversion. Simulations using PREDICI highlighted that the kinetic rate constants currently in use had not been correctly estimated and that a strong penultimate effect drastically increased the equilibrium constant K (7 × 10−7), preventing a well‐controlled polymerization. Experimental determination of the kc value (1.4 × 104 L · mol−1 · s−1) confirmed a strong penultimate effect on the recombination reaction, whereas for the dissociation reaction this effect is lower (kd = 10−2 · s−1).Nitroxide‐mediated polymerization of MMA at 45 °C initiated with a new crowded SG1‐based alkoxyamine.magnified imageNitroxide‐mediated polymerization of MMA at 45 °C initiated with a new crowded SG1‐based alkoxyamine.

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Section: Introductionmentioning

confidence: 99%

Nitroxide‐Mediated Polymerization of Methyl Methacrylate Using an SG1‐Based Alkoxyamine: How the Penultimate Effect Could Lead to Uncontrolled and Unliving Polymerization

Guillaneuf¹,

Gigmès²,

Marque³

et al. 2006

Macro Chemistry & Physics

116

148

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“…Schematic of polyisobutylene with its alternating secondary and quaternary carbons and lack of labile pendent groups as compared to poly(methylmethacrylate) with its ester side group. The search for PIB-based thermoplastic elastomers, i.e., for elastomers that contains PIB rubbery segments covalently linked to readily thermally-and/or solutionprocessible glassy segments, led the lead author to Kennedy's laboratory at The University of Akron where such polymers were already synthesized [27]. Kennedy's patents protecting the triblock copolymer SIBS were licensed by Corvita Corporation (Miami, FL, Acquired by BSC, Natick, MA) and strengthened by additional patents covering applications in the medical implant arena [28][29][30].…”

Section: Article In Pressmentioning

confidence: 99%

“…Living cationic polymerization, a seminal discovery in polymer science, lead not only to SIBS but also to many novel compositions useful for a variety of industrial and medical applications [27].…”

Section: The Synthesis and Properties Of Sibsmentioning

confidence: 99%

Medical applications of poly(styrene-block-isobutylene-block-styrene) (“SIBS”)

et al. 2008

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“…However, because of its incompatibility with other polymers, phase separation always occurs in their mixtures and thus leads to opaqueness as well as reduced mechanical properties [43]. Covalently crosslinking two types of polymer chains at least can prevent a macroscopic demixing, and this method may result in a phase-separated morphology with domains that remain in the nanoscale range [44][45][46][47][48][49]. Baron introduced PEG into PDMS to form tri-block copolymers, to prepare contact lenses that had the required oxygen permeability and water content balance [37].…”

Section: Introductionmentioning

confidence: 99%

Improved Hydrophilicity from Poly(ethylene glycol) in Amphiphilic Conetworks with Poly(dimethylsiloxane)

Gui

Zhang

Kumar³

et al. 2009

Silicon

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This paper focuses on the improvement of hydrophicility and water content of poly(dimethylsiloxane) (PDMS) by bonding a hydrophilic macromer, hydroxyl-terminated linear poly(ethylene glycol) (PEG), into a highly hydrophobic macromer, hydroxyl-terminated linear PDMS to prepare amphiphilic conetworks (APCNs) with the crosslinkers, tetraethoxysilane (TEOS) and bis [(3-methyldimethoxysilyl) propyl]-polypropylene oxide (BMPPO), which also functioned as a compatibilizer. Fourier transform infrared results clearly demonstrated the occurrence of the hydrolysis reactions between the terminal hydroxyl groups on the terminal of the two polymer chains and the alkoxy groups in TEOS and BMPPO. Differential scanning calorimetry results and X-ray diffraction obviously showed the presence of the two phases in the conetworks. The contact angle (CA) indicated the wettability of the conetworks increased in the surfaces, that is, CA values decreased significantly from 105°in PDMS to 55°i n the PEG/PDMS APCN (10/1 mol ratio), and the swelling degrees of the APCNs increased from ca. 0 to 60 % when the PEG/PDMS mol ratio was larger than 4/1. The APCNs with such high hydrophilicity and the good mechanical properties should be useful as biomaterials.

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From thermoplastic elastomers to designed biomaterials

Cited by 46 publications

References 33 publications

Nitroxide‐Mediated Polymerization of Methyl Methacrylate Using an SG1‐Based Alkoxyamine: How the Penultimate Effect Could Lead to Uncontrolled and Unliving Polymerization

Nitroxide‐Mediated Polymerization of Methyl Methacrylate Using an SG1‐Based Alkoxyamine: How the Penultimate Effect Could Lead to Uncontrolled and Unliving Polymerization

Medical applications of poly(styrene-block-isobutylene-block-styrene) (“SIBS”)

Improved Hydrophilicity from Poly(ethylene glycol) in Amphiphilic Conetworks with Poly(dimethylsiloxane)

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