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Comprehensive study of α-terpineol-loaded oil-in-water (O/W) nanoemulsion: interfacial property, formulation, physical and chemical stability

Lorena de Oliveira Felipe, Juliano Lemos Bicas, Meryem Bouhoute, Mitsutoshi Nakajima, Marcos A. Neves

2021npj Science of Food11 citationsDOIOpen Access PDF

Abstract

Abstract In this study, the interfacial ability of α-terpineol (α-TOH) was reported, followed by its trapping into oil-in-water (O/W) nanoemulsion as active-ingredient and the long-term observation of this nanosystem influenced by the storage-time (410-days) and temperature (5, 25, 50 °C). The results indicated that the α-TOH can reduce the interfacial tension on the liquid-liquid interface (Δ G ° m = −1.81 KJ mol −1 ; surface density = 8.19 × 10 −6 mol m −2 ; polar head group area = 20.29 Å 2 ), in the absence or presence of surfactant. The O/W nanoemulsion loaded with a high amount of α-TOH (90 mg mL −1 ; 9α-TOH-NE) into the oil phase was successfully formulated. Among the physical parameters, the mean droplet diameter (MDD) showed a great thermal dependence influenced by the storage-temperature, where the Ostwald ripening (OR) was identified as the main destabilizing phenomena that was taking place on 9α-TOH-NE at 5 and 25 °C along with time. Despite of the physical instability, the integrity of both nanoemulsion at 5 °C and 25 °C was fully preserved up to 410th day, displaying a homogeneous and comparable appearance by visual observation. On contrary, a non-thermal dependence was found for chemical stability, where over 88% of the initial amount of the α-TOH nanoemulsified remained in both 9α-TOH-NE at 5 and 25 °C, up to 410th day. Beyond the key data reported for α-TOH, the importance of this research relies on the long-term tracking of a nanostructured system which can be useful for scientific community as a model for a robust evaluation of nanoemulsion loaded with flavor oils.

Topics & Concepts

Ostwald ripeningSurface tensionChemistryPulmonary surfactantThermal stabilityChemical engineeringTerpineolMaterials scienceNanotechnologyChromatographyThermodynamicsOrganic chemistryEngineeringPhysicsBiochemistryProteins in Food SystemsSurfactants and Colloidal SystemsFood Chemistry and Fat Analysis