Graft Polymerization of Methacrylamide onto Poly(ethylene terephthalate) Fibers with Benzoyl Peroxide as Initiator and their Characterization

Ongun, Nallan; Karakışla, Meral; Aksu, Levent; Saçak, Mehmet

doi:10.1002/macp.200400178

Cited by 10 publications

(12 citation statements)

References 25 publications

(26 reference statements)

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“…25 PET fibers prepared as bundles (0.3 6 0.001 g) were washed with distilled water and Soxhlet-extracted for 6 h with acetone and dried at ambient conditions before graft copolymerization. The fibers were transferred into the reaction chamber containing various amount of MAAm monomer.…”

Section: Preparation Of Methacrylamide Grafted Pet Fibersmentioning

confidence: 99%

“…In this study, metharylamide was grafted on the PET fibers, and a dye‐ligand was covalently immobilized on the amide groups of the grafted metharylamide brushes. The effects of reaction conditions on the graft polymerization, such as the initiator concentration, ratio of MAA to PET, temperature, and polymerization time were investigated and optimized in the previous study 25. Metharylamide grafted fibers were characterized by FTIR spectroscopy, scanning electron microscopy, and thermogravimetric analysis.…”

Section: Introductionmentioning

confidence: 99%

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Preparation of methacrylamide grafted and dye‐ligand immobilized PET fibers: Studies of adsorption and purification of lysozyme

Karakışla

Bayramoğlu

Arıca

2008

J of Applied Polymer Sci

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In this study, novel affinity chromatographic fibers was prepared from methacrylamide grafted poly(ethylene terephthalate), PET-g-pMAA, using benzoylperoxide as an initiator. A dye ligand (i.e., Procion Brown) as a ligand was then covalently immobilized on the different amount of pMAAm grafted PET fibers, (PET-gpMAAm-PB). The fibers were characterized by surface area measurement, infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), and scanning electron microscopy (SEM). Adsorptive properties of the composite fibers were tested using a model protein (i.e., lysozyme). To achieve these purposes, the influence of pH, ionic strength, initial lysozyme concentration, and temperature on adsorption system has been investigated and evaluated. A maximum lysozyme adsorption PET-g-pMAAm-PB fiber was obtained as 43.9 mg g 21 at pH 7.5. The experimental equilibrium data obtained for lysozyme adsorption onto PET-g-pMAAm-PB fibers fitted well to the Langmuir isotherm model. The result of kinetic analyzed for lysozyme adsorption onto affinity fibers showed that the secondorder rate equation was favorable. The purity of the eluted lysozyme, as determined by HPLC, was 84% with recovery 73% for PET-g-pMAAm-PB fiber. Experiments on regeneration and dynamic adsorption were also performed. It appears that PET-g-pMAAm-PB fibers can be applied for lysozyme separation without causing any denaturation.

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Section: Preparation Of Methacrylamide Grafted Pet Fibersmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Preparation of methacrylamide grafted and dye‐ligand immobilized PET fibers: Studies of adsorption and purification of lysozyme

Karakışla

Bayramoğlu

Arıca

2008

J of Applied Polymer Sci

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“…In some studies about chemical grafting,22–24 this type of change trend was also reported. Based on their work, the results of our experiments could be explained by the following reasons: (1) the excessive BPO may act as a terminator of free radicals and decreases the rate of reaction; (2) during the course of crosslinking the flexibility of phosphazene chains decreased, which lowered the diffusion coefficient of BPO, especially for high concentration of BPO 11…”

Section: Resultsmentioning

confidence: 74%

Study of crosslinking of polyphosphazene with allyl pendant groups initiated by benzoyl peroxide

Huang

Pan

et al. 2009

J of Applied Polymer Sci

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A selected polyorganophosphazene containing three substituents: phenoxy group, 2-allylphenoxy group, and ethoxy group, had been thermally cross-linked. The polymer can be crosslinked at 85 C which was lower than the general reported operation temperature. The transformation of chemical structure was analyzed by FTIR technique. It was found that oxidization caused the formation of peroxides, ether and ester during crosslinking. The effect of different conditions including time, temperature, and initiator on properties of crosslinked polymer had been studied. The change of properties was well consistent with the change of chemical structure including vinyl and peroxide. Detailed cross-linking mechanisms were proposed based on FTIR spectra by monitoring the possible association sites. It was suggested that the initiation reaction preferentially occurred at methylene but not vinyl, and major linkages between polymer chains were ether and peroxide bonds.

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“…[17,18] Therefore, Bz 2 O 2 dissolved in different organic solvents was added to the polymerization tube containing acidic water and monomer to start the polymerization, where the organic solvent=water mixture ratio was kept at a value of 20=80 (v=v). The data for the yield and conductivity of POT given in Table I were obtained.…”

Section: Solvent Type and Dmf/water Volume Ratiomentioning

confidence: 99%

Synthesis of Poly(o-toluidine) in DMF/Water Mixture Using Benzoyl Peroxide

Mucuk

Karakışla

Saçak

2009

International Journal of Polymer Analysis and Characterization

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The chemical polymerization of o-toluidine was carried out in dimethylformamide=aqueous HCl solution using benzoyl peroxide. The conductivity of poly(o-toluidine) (POT) doped with HCl changed from 2.0 Â 10 À4 to 15.6 Â 10 À4 S cm À1 depending on the polymerization parameters. The solubility of POT in DMSO was found as 0.3 g=100 mL, in which the solubility of HCl-doped polyaniline was 0.042 g=100 mL. Characterization of synthesized POT was performed by conductivity, solubility, FT-IR, UV-vis, and TGA techniques. Thermal-sensing property of POT was also investigated between À10 and þ120 C by heating-cooling cycles.

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Graft Polymerization of Methacrylamide onto Poly(ethylene terephthalate) Fibers with Benzoyl Peroxide as Initiator and their Characterization

Cited by 10 publications

References 25 publications

Preparation of methacrylamide grafted and dye‐ligand immobilized PET fibers: Studies of adsorption and purification of lysozyme

Preparation of methacrylamide grafted and dye‐ligand immobilized PET fibers: Studies of adsorption and purification of lysozyme

Study of crosslinking of polyphosphazene with allyl pendant groups initiated by benzoyl peroxide

Synthesis of Poly(o-toluidine) in DMF/Water Mixture Using Benzoyl Peroxide

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