Waxy corn starch with 6-12 % moisture was degraded by gaseous hydrogen chloride (HCl(g)) then characterized chromatographically and microscopically to investigate the relationship between moisture-resulting changes in unit chain properties of starch and its susceptibility to swelling. Starches with the highest degradation extents at different moisture content had recoveries of 76-83 % (w/w) and the weight-average degrees of polymerization of 66-93 anhydroglucose unit. Additionally, the HCl(g)-degraded starches were still of birefringent granules but with internal cavity. When increasing the swelling temperature from 25 to 40 °C, some granules showed enlarged internal cavity, and some were fragmented. Change in granule morphology, accompanied by leaching of constituting polymers, was particularly evident for starch with preferential degradation of B1 chains over B2+ chains as the moisture content decreased from 9 % to 6 %. These findings not only manifest the impact of changes in B2+ and B1 chains on the swelling characteristic of HCl(g)-degraded granules, but also demonstrate an approach for weakening the integrity of granules by selective degradation of amorphous matrices using HCl(g).
Keywords: Amorphous lamellae; Gaseous hydrogen chloride degradation; Granule integrity; Moisture content; Starch; Unit chain properties.
Copyright © 2024 Elsevier Ltd. All rights reserved.