Abstract
In order to improve the long-term effectiveness of essential oil, a double-layered microcapsule was prepared using the inclusion encapsulation method in this study, with β-cyclodextrin as its inner layer and chitosan and sodium alginate as its outer layer. The optimized preparation process was obtained through the response surface method. The morphology, particle size, encapsulation efficiency, thermal stability and sustained release effect of the double-layered microcapsules were characterized. The microcapsules were spherical, with a particle size distribution between 2–6 μm, and had good thermal stability within 250 °C. Their encapsulation efficiency can be up to 80%, and it can continuously release the active ingredients of the essential oil under normal temperature and high temperature conditions for a long time. In order to further examine the application effect of the double-layered microcapsule, it was loaded onto the cotton fabric by the soak-roll method. The finished cotton fabric showed excellent washability and rubbing fastness. They can still maintain a light fragrance naturally for two months. The microcapsules prepared in this study can be potentially applied in sleep aid, antibacterial, mosquito prevention, food science and other related products.
Highlights
Plant essential oil is a complex natural mixture
A kind of double-layered microcapsule was successfully prepared by using βcyclodextrin, chitosan and sodium alginate as the composite wall material and lavender essential oil
A kind of double-layered microcapsule was successfully prepared by using β-cyclodextrin, chitosan and sodium alginate as the composite wall material and lavender essential oil as the core material
Summary
Plant essential oil is a complex natural mixture. It is colorless and transparent, soluble in organic solvents and highly volatile [1]. Because of their aromatic odor, antisepsis, sleeping aid, antibacterial [5], antioxidant, anti-inflammatory, insect repellent and other medicinal properties, plant essential oils have been applied in many fields, such as perfume production, daily chemical industry, antiseptic treatment, food preservation, medical pharmacy, etc. With the continuous improvement of people’s living standards, plant essential oil, as a safe, natural product, has attracted more and more attention. The development and application of plant essential oils are greatly restricted due to their unstable nature, easy decomposition and volatilization [9]. Microencapsulation technology can protect plant essential oils from the external environment, greatly improve its stability and storage and provide a strong support for the further development and utilization of plant essential oils
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