The physicochemical properties of microwave‐assisted encapsulated anthocyanins from Ipomoea batatas as affected by different wall materials

This study focuses on the impact of different wall materials on the physicochemical properties of microwave‐assisted encapsulated anthocyanins from Ipomoea batatas. Using the powder characterization technique, purple sweet potato anthocyanin (PSPAs) powders were analysed for moisture content, water activity, dissolution time, hygroscopicity, color and morphology. PSPAs were produced using different wall materials: maltodextrin (MD), gum arabic (GA) and a combination of gum arabic and maltodextrin (GA + MD) at a 1:1 ratio. Each of the wall materials was homogenized to the core material at a core/wall material ratio of 5 and were microencapsulated by microwave‐assisted drying at 1100 W. Results indicated that encapsulated powder with the GA and MD combination presented better quality of powder with the lowest value of moisture content and water activity. With respect to morphology, the microcapsule encapsulated with GA + MD showed several dents in coating surrounding its core material, whereas other encapsulated powders showed small or slight dents entrapped onto the bioactive compound. Colorimetric analysis showed changes in values of L, a*, b*, hue and chroma in the reconstituted powder compared to the initial powder. In this study, production of microcapsules from purple sweet potato anthocyanins using an economical microwave‐assisted technique with different wall materials is investigated. Moisture content, water activity and dissolution are also studied. Color hygroscopicity using different encapsulations is also analyzed. Different characterization tests were carried out to study the changes in physical and chemical properties in encapsulated purple sweet potato powder.