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Browsing by Author "Moreira, Ana C.G."

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  • Continuous production of melamine-formaldehyde microcapsules using a mesostructured reactor
    Publication . Dias, Madalena M.; Moreira, Ana C.G.; Manrique, Yaidelin A.; Martins, Isabel M.; Fernandes, Isabel P.; Rodrigues, Alírio; Lopes, José Carlos B.
    A mesostructured NETmix reactor was adapted to develop a continuous process to produce microcapsules, focusing on the steps commonly used in batch formulation: the emulsion and cure. Microcapsules were formed through a polycondensation process by coating Miglyol, a skin-hydrating emollient, with melamine-formaldehyde, which is a resistant shell material with surface smoothness. Different recirculation times were tested for the cure step. Microcapsules show a spherical shape and smooth membrane. Efficiencies of encapsulation of 75%, core contents of 70%, and diameters around 20 μm, ideal range for textile impregnation, were obtained. Scanning electron microscopy shows the integrity of microcapsules on textiles after impregnation and their flexible behavior. The thermogravimetric analysis confirmed the thermal stability of microcapsules up to 210 °C. With the NETmix reactor, it is possible to reduce the cure time of traditional batch formulation in 80%, producing microcapsules with similar characteristics in a continuous process.
    2020Journal article Open access Show more
  • Microencapsulation of red and white thyme oil in poly(lactic-co-glycolic) acid: assessment of encapsulation efficiency and antimicrobial capacity of the produced microcapsules
    Publication . Moreira, Ana C.G.; Martins, Isabel M.; Fernandes, Isabel P.; Barreiro, M.F.; Rodrigues, Alírio
    In this work, microcapsules were formed by coating thyme oil with a biodegradable polymer, poly(lactic-co-glycolic) acid (PLGA), through a coacervation process recently developed at our laboratory and previously studied for poly lactic acid (PLA). The coacervation method involves dissolution of the polymer (PLGA 50:50) in dimethylformamide. After adding this solution to the oil/water (o/w) emulsion, and due the insolubility of the polymer in water, polymer deposition occurs around the oil droplets and microcapsule formation starts. PLGA was chosen due to its easy biodegradation and biocompatibility. The active principle, thyme oil, is characterized by excellent antimicrobial activity ascribed to the presence of thymol and carvacrol, its major components. Two types of thyme oil (red and white) were microencapsulated and the produced microcapsules were characterized using optical microscopy, particle size analysis, and gas chromatography (used to evaluate encapsulation efficiency). Antimicrobial activity was preliminarily evaluated following ASTM E2149-01. Microscopy and particle size analysis confirmed the existence of microcapsules with round shapes, smooth surfaces, particle diameters between ∼45–49 μm, and wall thicknesses ∼3.5 μm. Global encapsulation efficiencies of thyme oil (both red and white) were 70 % and 57 %, respectively. The produced microcapsules exhibited a sustained oil release that ensures a level of antimicrobial activity maintenance desirable for cosmetic applications.
    2016Journal article Restricted access Show more