Yahya Lekchiri scite author profile

Native cyclodextrins (CDx) and some of their derivatives were reacted with poly(carboxylic acid)s (PCAs) [citric acid (CTR), 1,2,3,4-butanetetracarboxylic acid (BTCA), and poly(acrylic acid) (PAA)]. These reactions were carried out in the dry state at a temperature greater than 140°C in air or in vacuo. They resulted in water-soluble and insoluble polymers formed by polyesterification between CDx and PCA. In this study, the parameters of the reaction were studied, and their influence on the water solubility or swellability of the obtained polymers was investigated. High reaction temperatures, high PCA/CDx molar ratios, and long reaction times preferably yielded insoluble gels, whereas softer conditions resulted in very soluble polymers.The gels could swell up to 10 times their initial volume in water, and the water-soluble fraction had a solubility of 1 g/mL. A reaction mechanism was proposed that required the use of PCA carrying at least three neighboring carboxylic groups (CTR, BTCA, and PAA), and it was confirmed experimentally by the unsuccessful use of some dicarboxylic acids. A preliminary characterization by Fourier transform infrared spectroscopy and size exclusion chromatography was also conducted.

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Sorption of aromatic compounds in water using insoluble cyclodextrin polymers

Crini

Bertini

Torri

et al. 1998

J. Appl. Polym. Sci.

141

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Insoluble β‐cyclodextrin (β‐CD) polymers have been used for the recovery of various organic pollutants from aqueous solutions. These resins have been prepared by polymerization using epichlorohydrin (Epi) as a crosslinking agent. Several crosslinked polymers with various degrees of β‐CD were used. Several studies (time, concentration, kinetics, and pH) are presented here. The results show that these sorbents exhibit high sorption capacities toward substituted benzene derivatives. The mechanism of sorption is both physical adsorption in the polymer network and/or the formation of an inclusion complex and/or the formation of hydrophobic guest–guest interactions. © 1998 John Wiley & Sons, Inc. J Appl Polm Sci 68: 1973–1978, 1998

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Separation of structural isomers using cyclodextrin-polymers coated on silica beads

1995

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Immobilization of pyrazole compounds on silica gels and their preliminary use in metal ion extraction

et al. 2003

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Yahya Lekchiri

Water‐soluble polymers and gels from the polycondensation between cyclodextrins and poly(carboxylic acid)s: A study of the preparation parameters

Sorption of aromatic compounds in water using insoluble cyclodextrin polymers

Separation of structural isomers using cyclodextrin-polymers coated on silica beads

Immobilization of pyrazole compounds on silica gels and their preliminary use in metal ion extraction

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