Hydrogel microcapsule with anti-wrinkle effect
A microcapsule and hydrogel technology, applied in skin care preparations, cosmetics, cosmetic preparations, etc., can solve the problems of greasy fat particles in anti-wrinkle products, unstable plant-derived anti-wrinkle ingredients, etc., and achieve low price and convenient quality control. , the effect of uniform quality
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Embodiment 1
[0018] The capsule wall materials include 60 g of gum arabic, 30 g of carboxymethyl cellulose and 10 g of seabuckthorn yellow; the capsule core materials include 20 g of monoglyceride and 5 g of grape seed proanthocyanidins. Add the capsule wall material to 500 mL of deionized water, and stir evenly; heat the capsule core material to 70°C, stir evenly, and homogenize for 3 minutes under a homogenization pressure of 45MPa. The hydrogel microcapsules are prepared by the dropping method, the uniformly stirred capsule wall material solution flows out from the dripper, and the homogeneous capsule core material flows out from the dripper to form a sandwich liquid column, and then the liquid is cut off with a cutter Columns, forming a series of droplets with a diameter of 2 mm, prepared as hydrogel microcapsules.
[0019] It is verified by experiments that the hydrogel microcapsules with anti-wrinkle effect prepared in this example have a good embedding effect, and the embedding ...
Embodiment 2
[0021] The capsule wall materials included 160 g of aloe vera gel, 80 g of methyl cellulose, and 30 g of vermicelli; the capsule core materials included 45 g of simethicone oil and 9 g of papaya sulfhydrylase. Add the capsule wall material to 500 mL of deionized water, and stir evenly; heat the capsule core material to 75°C, stir evenly, and homogenize for 2 minutes under a homogenization pressure of 50 MPa. The hydrogel microcapsules are prepared by the dropping method, the uniformly stirred capsule wall material solution flows out from the dripper, and the homogeneous capsule core material flows out from the dripper to form a sandwich liquid column, and then the liquid is cut off with a cutter Columns, forming a series of droplets with a diameter of 5 mm, prepared into hydrogel microcapsules.
[0022] Through experimental verification, the hydrogel microcapsules with anti-wrinkle effect prepared in this example have good embedding effect, and the embedding rate is as hig...
Embodiment 3
[0024] The capsule wall materials included 80 g of hyaluronic acid, 48 g of chitosan, and 20 g of ginkgo yellow pigment; the capsule core materials included 15.86 g of mineral oil and 2.64 g of green tea polyphenols. Add the capsule wall material to 670 mL of deionized water, and stir evenly; heat the capsule core material to 65°C, stir evenly, and homogenize for 5 min under a homogenization pressure of 55 MPa. The hydrogel microcapsules are prepared by the dropping method, the uniformly stirred capsule wall material solution flows out from the dripper, and the homogeneous capsule core material flows out from the dripper to form a sandwich liquid column, and then the liquid is cut off with a cutter Columns, forming a series of droplets with a diameter of 7 mm, prepared as hydrogel microcapsules.
[0025] It is verified by experiments that the hydrogel microcapsules with anti-wrinkle effect prepared in this example have a good embedding effect, and the embedding rate is as ...
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