Science and Education Publishing American Journal of Food Science and Technology 2333-4835 3 4A 2015 09 10 Physicochemical, Structural and Rheological Properties of Chestnut (Castanea sativa) Starch 1 7 EN Marcio Schmiele Department of Food Technology, School of Food Engineering, University of Campinas, Campinas, Brazil Georgia Ane Raquel Sehn Valéria da Silva Santos Thaís de Souza Rocha Eveline Lopes Almeida Elizabeth Harumi Nabeshima Yoon Kil Chang Caroline Joy Steel AJFST201534A1 10.12691/ajfst-3-4A-1 2015 02 17 2015 04 23 2015 09 10 Chestnuts have high starch content, which makes them an alternative source of starch for the food industry. Brazil is a country where the production of chestnuts has been increasing in recent years. The aim of this study was to extract starch from chestnuts (Castanea sativa), to characterize its physicochemical, structural and rheological properties, and to compare the results with corn starch. Chestnut starch presented light color, and granules smaller than corn starch, with various dimensions, suggesting a bimodal distribution. Chestnut starch showed 20.48% absolute amylose, higher amylopectin branched-chain length and B-type crystallinity. The infrared spectra of chestnut starch showed characteristic peaks at 1647, 1157, 1079, and 1018 cm-1. Chestnut starch presented higher peak viscosity, breakdown and setback, and lower pasting and gelatinization temperatures than corn starch. The swelling power and the solubility of chestnut starch were significantly higher than those of corn starch. Chestnut starch showed characteristics of a gelling and thickening agent, with potential for use as an ingredient in the food industry, as an unconventional starch from an alternative source.