Nanostructure development in wet amorphous amylopectin as revealed by in situ X-ray scattering methods

8 pags., 13 figs.
Completely amorphous, transparent bars of amylopectin were prepared by injection molding of pure native semicrystalline samples (Waxy Maize). The formation of a semicrystalline morphology was studied during annealing treatment at various temperatures in a wet atmosphere, using simultaneous WAXS and SAXS. Amylopectin samples crystallized during 20 days in a humid atmosphere at room temperature and subjected to a successive melting process were also studied by X-ray scattering. Results indicate that individual molecules crystallize independently from each other, similar to the case of native amylopectin grains. During the first stages of crystallization, the changes in the SAXS pattern suggest that uncorrelated crystal blocks are formed, which may arrange to lamellae (if a secondary network of double-helix net-points is hydrothermally dissociated). At the beginning of the crystallization process, only few amylopectin molecules (about 10%) are incorporated into the nanostructure. A shell-like structure of semicrystalline lay ers, comparable to that of a native grain, develops. When crystallization proceeds further, the initially thin shell layers thicken. This causes the amorphous interlayers to be subjected to inner tensions, leading to a decrease in the melt temperature. After a storage time of 20 days in a humid atmosphere, amylopectin reaches a crystallinity level of 54%, only slightly lower than that of the initial native grains. Upon heating the retrograded amylopectin, immediately before complete melting, the long-period shows a value of 15 nm with a crystal thickness, derived from WAXS, of only 4 nm. Such a structure, which has not been reported before, is due to the relaxations of the inner tensions during melting, which lead to a disappearance of inserted interlamellar crystals. © 2006 Wiley Periodicals, Inc.
The SAXS and WAXS data discussed in this work were derived from measurements carried out at HASYLAB,DESY, Hamburg, under project II-04 –029 EC. The Arburg Company in Lossburg, Germany is thanked for kind supplyof the injection-molding machine used