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Query: KEGG:D06369 (
ZnCl2
)
1,308
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
An aqueous solution of an amphiphilic polysaccharide derivative, hydrophobically (stearyl alkyl group) and hydrophilically (sulfonic-acid salt group) modified hydroxyethylcellulose (
HHM
-HEC), showed increased viscosity, elasticity, and thixotropic properties in response to the addition of monovalent and divalent salts. Furthermore, the
HHM
-HEC solution had a transparent appearance at a NaCl concentration of 7 wt %. Since it showed superior salt tolerance to HEC, we focused attention on the two substituents of
HHM
-HEC and prepared HEC derivatives, namely, hydrophobically modified hydroxyethylcellulose (R-HEC), hydrophilically modified hydroxyethylcellulose (S-HEC), and nonmodified hydroxyethylcellulose (HEC). In addition, we used oscillatory, thixotropic, and fluorometric methods to compare the rheological properties of
HHM
-HEC with those of other derivatives in the presence of NaCl and
ZnCl2
, and attempted to elucidate the respective roles of the two substituents of
HHM
-HEC solution in the salt-tolerance mechanism. As the NaCl concentration in the
HHM
-HEC solution increased, the values of the elastic modulus G' and the viscous modulus G'' increased, and, moreover, the relative intensities of the first (I1 = 372 nm) and the third (I3 = 383 nm) vibronic bands of the pyrene monomer emission spectrum (the I1/I3 ratio) decreased. These results suggested that the added salt strengthened the three-dimensional network structure of the
HHM
-HEC polymer by the formation of cross-linkages through the association of hydrophobic substituents. This hydrophobic substituent was therefore essential in allowing
HHM
-HEC to exhibit a high viscosity in a salt solution. Although the R-HEC solution showed a higher viscosity than did the
HHM
-HEC solution in the absence of added salts, it became cloudy and lost its viscosity at high NaCl concentrations, apparently because of the shrinkage of its network structure. This signified that the hydrophilic substituent was essential for the sufficient solubility of
HHM
-HEC to show its rheological properties in a salt-rich solution. We propose to explain how the viscosity of
HHM
-HEC increases in the presence of salts as follows: Added salts weaken the electrostatic repulsion between the hydrophilic substituents, thereby enhancing the interactions of hydrophobic substituents and consequently increasing the rigidity of the
HHM
-HEC solution.
...
PMID:Salt tolerance of an aqueous solution of a novel amphiphilic polysaccharide derivative. 1654 98
