%0 Journal Article %1 Esch1999 %A Esch, M %A Sukhorukov, VL %A Kurschner, M %A Zimmermann, U %C 605 THIRD AVE, NEW YORK, NY 10158-0012 USA %D 1999 %I JOHN WILEY & SONS INC %J BIOPOLYMERS %K vladimir %N 3 %P 227-237 %T Dielectric properties of alginate beads and bound water relaxation studied by electrorotation %V 50 %X The electrical and dielectric properties of Ba2+ and Ca2+ cross-linked alginate hydrogel beads were studied by means of single-particle electrorotation. The use of microstructured electrodes allowed the measurements to be performed over a wide range of medium conductivity from about 5 mS/m to 1 S/m. Within a conductivity range, the beads exhibited measurable electrorotation response at frequencies above 0.2 MHz with two well-resolved co- and antifield peaks. With increasing medium conductivity, both peaks shifted toward higher frequency and their magnitudes decreased greatly. The results were analyzed using various dielectric models that consider the beads as homogeneous spheres with conductive loss and allow the complex rotational behavior of beads to be explained in terms of conductivity and permittivity of the hydrogel. The rotation spectra could be fitted very accurately by assuming (a) a linear relationship between the internal hydrogel conductivity and the medium conductivity, and (b) a broad internal dispersion of the hydrogel centered between 20 and 40 MHz. We attribute this dispersion to the relaxation of water bound to the polysaccharide matrix of the beads. The dielectric characterization of alginate hydrogels is of enormous interest for biotechnology and medicine, where alginate beads are widely used for immobilization of cells and enzymes, for drug delivery, and as microcarriers for cell cultivation. (C) 1999 John Wiley & Sons, Inc.

@article{Esch1999, abstract = {The electrical and dielectric properties of Ba2+ and Ca2+ cross-linked alginate hydrogel beads were studied by means of single-particle electrorotation. The use of microstructured electrodes allowed the measurements to be performed over a wide range of medium conductivity from about 5 mS/m to 1 S/m. Within a conductivity range, the beads exhibited measurable electrorotation response at frequencies above 0.2 MHz with two well-resolved co- and antifield peaks. With increasing medium conductivity, both peaks shifted toward higher frequency and their magnitudes decreased greatly. The results were analyzed using various dielectric models that consider the beads as homogeneous spheres with conductive loss and allow the complex rotational behavior of beads to be explained in terms of conductivity and permittivity of the hydrogel. The rotation spectra could be fitted very accurately by assuming (a) a linear relationship between the internal hydrogel conductivity and the medium conductivity, and (b) a broad internal dispersion of the hydrogel centered between 20 and 40 MHz. We attribute this dispersion to the relaxation of water bound to the polysaccharide matrix of the beads. The dielectric characterization of alginate hydrogels is of enormous interest for biotechnology and medicine, where alginate beads are widely used for immobilization of cells and enzymes, for drug delivery, and as microcarriers for cell cultivation. (C) 1999 John Wiley \& Sons, Inc.}, added-at = {2011-03-02T09:35:06.000+0100}, address = {605 THIRD AVE, NEW YORK, NY 10158-0012 USA}, affiliation = {Zimmermann, U (Reprint Author), Univ Wurzburg, Biozentrum, Lehrstuhl Biotechnol, Hubland, D-97074 Wurzburg, Germany. Univ Wurzburg, Biozentrum, Lehrstuhl Biotechnol, D-97074 Wurzburg, Germany.}, author = {Esch, M and Sukhorukov, VL and Kurschner, M and Zimmermann, U}, biburl = {https://www.bibsonomy.org/bibtex/263a1700f53853179ad140750388a1595/reichert}, doc-delivery-number = {216MH}, groups = {public}, interhash = {74d9e33886108ec57c6820fc0c48e553}, intrahash = {63a1700f53853179ad140750388a1595}, issn = {0006-3525}, journal = {BIOPOLYMERS}, journal-iso = {Biopolymers}, keywords = {vladimir}, keywords-plus = {AQUEOUS-SOLUTIONS; ELECTRO-ROTATION; MAMMALIAN-CELLS; POLYSACCHARIDE; SPECTROSCOPY; MEMBRANE; MOBILITY; DYNAMICS; ISLETS; POLY(VINYLPYRROLIDONE)}, language = {English}, month = SEP, number = 3, number-of-cited-references = {55}, pages = {227-237}, publisher = {JOHN WILEY \& SONS INC}, subject-category = {Biochemistry \& Molecular Biology; Biophysics}, times-cited = {18}, timestamp = {2011-03-09T14:16:26.000+0100}, title = {Dielectric properties of alginate beads and bound water relaxation studied by electrorotation}, type = {Article}, unique-id = {ISI:000081446100001}, username = {reichert}, volume = 50, year = 1999 }