Microemulsions are thermodynamically stable systems with tiny droplets, typically in the nanometer range. This stability ensures that the formulation remains homogenous and doesn't separate over time, leading to a longer shelf life.
Microemulsions have exceptionally small droplet sizes, which facilitate the efficient delivery of active ingredients into the skin. This enhanced penetration can result in improved efficacy and quicker results.
Microemulsions can solubilize a wide range of both hydrophilic (water-soluble) and lipophilic (oil-soluble) ingredients, allowing for the incorporation of a broader variety of active compounds.
Microemulsions can solubilize a wide range of both hydrophilic (water-soluble) and lipophilic (oil-soluble) ingredients, allowing for the incorporation of a broader variety of active compounds.
Due to their small droplet size and high surface area, microemulsions can enhance the bioavailability of poorly water-soluble actives. This means that the skin can absorb and utilize a higher proportion of the active ingredients
Due to their small droplet size and high surface area, microemulsions can enhance the bioavailability of poorly water-soluble actives. This means that the skin can absorb and utilize a higher proportion of the active ingredients
Microemulsions typically have a lightweight and non-greasy texture, making them ideal for skincare products like serums and lotions. They provide a pleasant sensory experience and are well-suited for daily use.
: Microemulsions can be formulated to have a lower irritation potential compared to some traditional macroemulsions. This is particularly important for sensitive skin types.
Microemulsions can be tailored to achieve various textures and appearances, allowing formulators to create products with different sensory attributes, from clear solutions to creams and gels.
Microemulsions can protect sensitive actives from degradation, such as antioxidants, vitamins, and peptides, by encapsulating them within the small droplets, preserving their efficacy.
Microemulsions can be tailored to achieve various textures and appearances, allowing formulators to create products with different sensory attributes, from clear solutions to creams and gels.
Microemulsions can protect sensitive actives from degradation, such as antioxidants, vitamins, and peptides, by encapsulating them within the small droplets, preserving their efficacy.
Microemulsions are well-suited for encapsulating and delivering bioactive compounds, allowing for controlled release and prolonged activity on the skin.
Microemulsions are well-suited for encapsulating and delivering bioactive compounds, allowing for controlled release and prolonged activity on the skin.
Microemulsions often require fewer emulsifying agents than macroemulsions, reducing the risk of skin sensitivity or irritation caused by emulsifiers.
Microemulsions often require fewer emulsifying agents than macroemulsions, reducing the risk of skin sensitivity or irritation caused by emulsifiers.
We embarked on the intricate journey of liposomic encapsulation, focusing on each of the four bioactives: quercetin, kaempferol, zeaxanthin, and lutein. Through the fusion of the film hydration method with the power of sonication and extrusion, we sought to create nanoscale encapsulates that would redefine the delivery of skincare actives.
Our quest for excellence didn't stop at encapsulation; we delved into the nuances of optimization. This involved fine-tuning the bioactive loading, striking the perfect bioactive ratio, and crafting encapsulation sizes optimized for effective delivery to the epidermal layer. Our ultimate goal was to unlock the bioactives' full potential, maximizing their efficacy in delivering anti-aging and skin brightening properties.
In the pursuit of innovation, we maintained an unwavering commitment to stability. We conducted rigorous comparisons between our encapsulated bioactives and their non-encapsulated counterparts. These tests scrutinized the impact of time, temperature, sunlight, and pH on the bioactives' stability. Our aim was to ensure that our encapsulated bioactives not only surpassed in potency but also endured the test of time and environmental factors.
In the pursuit of innovation, we maintained an unwavering commitment to stability. We conducted rigorous comparisons between our encapsulated bioactives and their non-encapsulated counterparts. These tests scrutinized the impact of time, temperature, sunlight, and pH on the bioactives' stability. Our aim was to ensure that our encapsulated bioactives not only surpassed in potency but also endured the test of time and environmental factors.