NV VITC MAP
NV VitC MAP is an active ingredient that contains magnesium ascorbyl phosphate nanoencapsulated in biopolymeric capsules larger than 200nm, which offers multiple benefits for the skin. This compound is a derivative of ascorbic acid that acts as a powerful whitening and antioxidant, combating damage caused by free radicals and preventing premature aging caused by sun exposure. Furthermore, it stimulates the synthesis of collagen, a vital protein for maintaining the skin's structure, elasticity and firmness. The nanoencapsulation technology used in NV VitC MAP significantly improves the skin permeability of magnesium ascorbyl phosphate, a compound that naturally finds it challenging to permeate the skin. Likewise, the technology increases the effectiveness of the active ingredient by protecting it against oxidation, ensuring that its beneficial properties are maintained during use. This innovation also allows the inclusion of NV VitC MAP in cosmetic formulations that seek a transparent appearance, which is one of the great advantages of this active ingredient in visual terms, given the difficulty of achieving transparency in products with ascorbic acid and its derivatives. Thus, NV VitC MAP opens new paths for formulators who want to create advanced and innovative cosmetic solutions, meeting market demands for functional and visually appealing cosmetics.
ACTIVE DESCRIPTION
Magnesium ascorbyl phosphate is a derivative of ascorbic acid frequently used in cosmetic and dermatological products as it has greater chemical stability than ascorbic acid. Its molecular structure is obtained through the esterification reaction of a hydroxyl group with an inorganic chain. The reaction protects the enediol ring present in this compound from degradation reactions and gives the derivative improved stability, although it does not necessarily result in greater skin permeability. In this way, Nanovetores' encapsulation technology provides a solution to this problem, facilitating the permeation of the active ingredient into the skin by reducing particle size, in addition to keeping this active substance in biocompatible nanocapsules and providing gradual release of the product.