International Journal of Food Properties (Dec 2024)
Fortification of chocolate bars by solid lipid nanoparticles of ferrous sulfate based on stearic acid and fat rich in monoacylglycerol and diacylglycerol from coconut stearin: study of physicochemical properties and sensory acceptability
Abstract
ABSTRACTIron fortification in the form of ferrous sulfate is associated with several disadvantages, particularly related to the unpleasant after-taste. In this context, ferrous sulfate must be encapsulated by forming solid lipid nanoparticles (SLNs), which can be applied to fat-based foods such as chocolate bar. Therefore, this study aimed to provide chocolate bar fortified by SLN-ferrous sulfate with good physicochemical characteristics and sensory acceptability. The process was carried out by providing fats rich in monoacylglycerol (MAG) and diacylglycerol (DAG) from coconut stearin as a lipid matrix and emulsifier, fabricating SLN-ferrous sulfate, and fortifying SLN-ferrous sulfate in the chocolate bar at 0% (control), 2.5%, 5%, and 7.5%. The results showed that the fortification significantly affected texture, color, iron content, and sensory acceptability. The addition of SLN-ferrous sulfate of 2.5% produced chocolate bar with good physicochemical properties, which were preferred by the panelists. The chocolate bar contained iron reaching 79.23 mg/kg, a small spherulitic crystal microstructure, dominated by stable β-crystals, and no fat bloom was formed. Furthermore, SLN-ferrous sulfate based on fats rich in MAG and DAG from coconut stearin was compatible with good characteristics.
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