The poor water-solubility and stability of capsaicin limits its widespread application in the industry. Spray-dried capsaicin microcapsules were fabricated using whey protein (WP) and octenyl-succinic-anhydride-modified starch (OS) as wall materials in this study. The aim is to investigate the impact of protein/starch ratio on microcapsules' physicochemical characteristics and stability. SEM images showed that microcapsule granules were uneven in size, and irregular, with some wrinkles and dents. FTIR illustrated a chemical interaction between capsaicin and composite wall materials. XRD showed that the spray-dried powders were mainly in amorphous form. As the whey protein content decreased, the yield (9.32-68.18%), encapsulation efficiency (49.91-94.57%), wettability (158.87-232.63 s), and solubility (74.99-96.57%) of samples decreased, but the mean particle size (3.22-26.03 μm), apparent viscosity, and shear stress tended to increase. Besides, DSC revealed that the glass transition temperatures (Tg) of samples were at around 85 °C. Capsaicin microcapsules with WP:OS at the ratio of 7:3 possessed the highest Tg, and the best storage stability. Based on our research, microencapsulation significantly improved the stability and the water-solubility of capsaicin. A small amount of OSA-starch mixed with whey protein as a promising carrier for capsaicin would greatly promote the application of capsaicin in the food industry.
Keywords: PCA analysis; capsaicin; encapsulation; solubility; stability.