Quasielastic Neutron Scattering Study on Thermal Gelation in Aqueous Solution of Agarose

Abstract

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The dynamics of water and agarose molecules in an agarose aqueous solution has been studied by means of quasielastic neutron scattering (QENS). The dynamic structure factor S (Q,E) of the agarose aqueous solution was fitted well to the sum of the Lorentz and delta function. The former is attributed to the diffusive motion of water molecules and the latter to the local vibrational motion of agarose molecules. The self-diffusion coefficient D of water molecules was obtained from the Q-dependence of the width of the Lorentz function, while the mean square displacement u2> of agarose molecules was obtained from the Q-dependence of the intensity of the delta term. In the cooling direction, both D and u2> decreased with decreasing temperature and showed discontinuous changes around the thermal gelation temperature (around 314 K). In the heating direction, however, D and u2> did not show the obvious change below 343 K, indicating a large hysteresis effect. The present results of u2> and D revealed that the thermal gelation suppresses the motion of the polymer and accelerates the diffusion of water molecules. The activation energy Ea of the diffusion of water in the sol state is the same as that of bulk water, but the Ea in the gel state is clearly smaller than that of bulk water.

Keywords

• agarose
• dynamics
• quasielastic neutron scattering
• QENS
• thermal gelation