A SMALL-ANGLE X-RAY-SCATTERING STUDY OF ALGINATE SOLUTION AND ITS SOL-GEL TRANSITION BY ADDITION OF DIVALENT-CATIONS

The small-angle x-ray scattering (SAXS) technique has been applied to investigate solution and gel structures of alginate in the absence and presence of two divalent cations: Ca(II) and Cu(II). We have observed a broad maximum in the scattering curve, a characteristic of polyelectrolyte, for the purified alginate sample. The scattering maximum disappears in excess of added simple salt and shifts toward the higher angle region with increasing alginate concentration. Concentration dependence of the position and intensity of the maximum follows power law relations with exponents close to those predicted by theory. Data analysis shows an increase in correlation length xi and cross-sectional diameter d(0), of polymer chains upon gelation and suggests that a dimeric structure is adopted in the junction zone, consistent with the ''egg-box'' model previously proposed. In the Ca(II)-alginate system, the molecular parameters xi and d(0) are found to have good correlation with the macroscopic properties of gelation, such as gel point determined by viscosity measurements. However, for the Cu(II)-alginate system there is no clearly transitional behavior observed in xi and d(0), implying that the junction zone may be replaced by a more uniformly distributed site binding of Cu(II) ions to the carboxyl groups of both mannuronate and guluronate residues, in confirmation of previous C-13-nmr results. (C) 1995 John Wiley & Sons, Inc.