Abstract
This study developed a novel method for the facile, green and efficient fabrication of highly crystalline and heat-resistant starch via recrystallization with high concentrations of debranched starch (DBS), which greatly reduced the complexity and period compared to conventional preparation methods. The structural, thermal, and digestive properties of recrystallized DBS obtained from different concentrations (0–50 %) have been systematically investigated. For instance, the peak melting temperature of recrystallized DBS increased from around 77.8 °C to 114.7 °C with increasing DBS concentration. Moreover, the crystallinity of the recrystallized DBS increased from around 23.5 % to 73.6 % when the DBS concentration was raised. In addition, the resistant starch content of the recrystallized DBS increased from around 30.8 % to 72.1 % as the DBS concentration increased. These results show that the DBS concentration in water during recrystallization plays a critical role in determining the molecular, physicochemical, and digestion properties of DBS, which may be an economical and effective method for large-scale production of highly crystalline starch and provides a new method for preparing heat-resistant type-3 resistant starch, which can be used in low glycemic index foods designed to prevent diabetes and obesity.