RU2227015C1 - Cosmetic agent for protection against ultraviolet radiation - Google Patents

Abstract

FIELD: cosmetology. SUBSTANCE: invention relates to agent used for protection against ultraviolet radiation. Proposed cosmetic agent for protection against ultraviolet radiation comprises an active substance as nanocrystalline silicon with particles size 2-50 nm prepared by hemosorption of oxygen and taken in the amount 0.25-3%, and aqueous- oily base. Invention provides the complete absorption of ultraviolet radiation. EFFECT: enhanced effectiveness of agent. 8 cl, 1 tbl, 10 ex

Description

The invention relates to cosmetics, and more specifically to cosmetics that protect against the harmful effects of ultraviolet radiation of natural or artificial origin and are used in the manufacture of creams, varnishes and paints.

Known cosmetics designed to protect against the harmful effects of ultraviolet radiation, containing a water-oil base and an active substance in the form of ultrafine particles of titanium, zinc or cerium oxides (see US patent No. 6099798 from 08.08.2000; US patent No. 6197282 from 06.03. 2001).

Also known is a cosmetic product for protecting the skin from ultraviolet radiation, containing organic absorbents in conjunction with hollow polymer spheres (sanspheres) (see US patent No. 56663213). This tool is based on the physical effects of absorption and scattering of light.

The closest in technical essence to the proposed cosmetic product is a cosmetic product described in US patent No. 5700451 class. A 61 K 7/42. This patent describes a sunscreen composition containing a water-oil base and an active substance in the form of titanium dioxide with a particle size of 50-150 nm with the inclusion of 1-15% anatase mixture. This composition protects the skin from ultraviolet radiation. It is stable, invisible and easy to apply in the usual way.

However, this composition has the ability to scatter or convert ultraviolet rays into other types of radiation, which leads to a lack of effectiveness of the protective effect, as the secondary radiation taking place adversely affects human skin.

The basis of the invention is the task of developing such a cosmetic product that would completely absorb ultraviolet radiation, which adversely affects human skin, thereby increasing the efficiency of the light-shielding effect of the proposed tool.

The problem is solved in that in a cosmetic product containing a water-oil base and an active substance that attenuates ultraviolet radiation, according to the invention, nanocrystalline chemisorbed oxygen silicon with a particle size of 2-50 nm obtained in high-frequency induction plasma in argon or helium in the presence of oxygen and taken in an amount of 0.25-3%.

Nanocrystalline silicon is a core, partially or fully coated with a shell of silicon dioxide. Silicon particles are quantum dots capable of capturing and completely absorbing photons of ultraviolet radiation according to the principle of band-gap technology. When silicon particles interact with ultraviolet radiation, a quantum of light is captured (retained) without being converted to radiation with other energy characteristics. In this case, an effective optical absorption of the photon occurs with an energy equal to the energy of the forbidden zone in the silicon powder.

Also according to the invention, the agent contains said nanocrystalline silicon obtained in the presence of oxygen taken in an amount of 1.5-3 vol.%. In addition, silicon nanocrystalline chemisorbed oxygen was taken in an amount of 5-15 wt.%.

Depending on the amount of oxygen absorbed, the color of the silicon core changes from dark gray to white, and in the interval - golden yellow.

The proposed cosmetic is a sunscreen.

To expand the spectrum of protective action, the cosmetic product according to the invention additionally contains ultraviolet absorbers that absorb waves in the region from 290 to 400 nm. In addition to these absorbers, the agent additionally contains either polymer microcapsules (sanspheres) or luminescent ingredients.

In the proposed sunscreen, the water-in-oil base is an oil in water or water in oil emulsion.

The invention will be further described in detail in the description and specific examples of its implementation.

Silicon nanocrystalline chemisorbed oxygen is obtained in high-frequency induction plasma in argon or helium in the presence of oxygen. Silicon is a core, partially or completely coated with a shell of silicon dioxide obtained by the addition of oxygen. The surface oxide layer on the core is controlled by the amount of added oxygen. The oxygen concentration in the feed gas is 1.5-3 vol.%.

The degree of oxidation of silicon, controlled by the concentration of oxygen in the exhaust gas, is 5-15 wt.%.

Depending on the degree of oxidation, the silicon core is partially or fully coated with silicon dioxide, and the color of silicon changes from dark gray (unoxidized silicon) to golden yellow (partial coating of the silicon core) and white (full coating of the core with silicon dioxide).

The specific surface area of nanocrystalline silicon by low-temperature nitrogen adsorption (according to the method of Brunauer, Emmett and Teller-BET) is 100-1500 m ² / g).

The particle size of the nanocrystalline silicon fraction is determined by transmission electron microscopy using a Philips-EM-300 microscope and is 2-50 nm.

UV protection cosmetics containing various amounts of nanocrystalline chemisorbed silicon oxygen were prepared, and the water-oil base of these products consisted of two phases, the first phase A was water-insoluble, and the second phase B was water-insoluble, while this base was an oil-in-water or water-in-oil emulsion.

Each phase was separately heated to 40-100 ° C, mixed and homogenized. Then, 0.2 was added with stirring; 0.25; 1.5; 3; 3.5 and 4% of nanocrystalline chemisorbed silicon oxygen obtained by the above technology. The amount of oxygen introduced into the gas is 1.5-3 vol.%.

The compositions of the prepared cosmetics are shown in the table.

Ultraviolet spectra of cosmetics containing 0-3.5% nanocrystalline chemisorbed silicon oxygen with a wavelength of 190-500 nm were obtained on a Hitachi-330 spectrophotometer. The spectra of all cosmetics are characterized by 100% absorption of ultraviolet radiation with a wavelength of 190-300 nm. In the spectral range with a wavelength of 300-320 nm, there is an edge of absorption of radiation. Above 320 nm, the transmission level is 90-95%, depending on the thickness of the applied layer.

Example 1. The prepared creams were tested for the effectiveness of sun protection on a group of 5 volunteers. The irradiation was carried out using an ultraviolet irradiator UFO-1, which completely simulates solar radiation and, in addition to the ultraviolet component, also contains an infrared component. The distance from the irradiator to the subject was 50 cm. The time of redness of the skin without a protective layer of cream was 3 minutes for the first subject, respectively; for the 2nd - 2.5 minutes; for the 3rd - 2.5 minutes; for the 4th - 3.5 minutes; for the 5th - 3 min. When a cream containing 0.1% nanocrystalline chemisorbed silicon oxygen was applied to the skin, the skin redness did not change, Δτ = 0 * (* Δτ is the difference between the redness time of the skin with the cream and without protection).

Example 2. Similar to example 1, except that the content of nanocrystalline chemisorbed silicon oxygen in the cream was 0.25%. The reddening time of the skin without protection and with a applied layer of cream was respectively for the 1st test subject - 3 and 5 minutes; for the 2nd - 2.5 and 4 minutes; for the third - 2.5 and 6 minutes; for the 4th - 3.5 and 7.5 minutes; for the 5th - 3 and 4 minutes; Δτ _sr = 2.4 min.

Example 3. Similar to example 1, except that the content of nanocrystalline chemisorbed silicon oxygen in the cream was 1.5%. The reddening time of the skin without protection and with a applied layer of cream was respectively for the 1st test subject - 3 and 7 minutes; for the 2nd - 2.5 and 5.5 minutes; for the third - 2.5 and 8 minutes; for the 4th - 3.5 and 9 min; for the 5th - 3 and 5 minutes; Δτ _sr = 4 min.

Example 4. Similar to example 1, except that the content of nanocrystalline chemisorbed silicon oxygen in the cream was 3%. The time of reddening of the skin without protection and with a applied layer of cream was respectively for the 1st test subject - 3 and 8 minutes; for the 2nd - 2.5 and 7 minutes; for the third - 2.5 and 10 minutes; for the 4th - 3.5 and 11 min; for the 5th - 3 and 7 minutes; Δτ _cf. = 5.6 min.

Example 5. Similar to example 1, except that the content of nanocrystalline chemisorbed silicon oxygen in the cream was 3.5%. The time of redness of the skin without protection and with a applied layer of cream was respectively for the 1st test subject - 3 and 7.5 minutes; for the 2nd - 2.5 and 7.5 minutes; for the third - 2.5 and 9 minutes; for the 4th - 3.5 and 11.5 minutes; for the 5th - 3 and 6 minutes; Δτ _cf = 5.4 min.

Example 6. Similar to example 3, except that 10% of an ultraviolet absorber ethylhexylmethoxycinnamate (Heliopan-AV) was added to the cream. The reddening time of the skin without protection and with a applied layer of cream was respectively for the 1st test subject - 3 and 9.5 minutes; for the 2nd - 2.5 and 6 minutes; for the third - 2.5 and 9 minutes; for the 4th - 3.5 and 10 min; for the 5th - 3 and 7 minutes; Δτ _cf = 5.4 min.

Example 7. In a cream base not containing nanocrystalline chemisorbed silicon oxygen, 10% of an ultraviolet absorber, ethylhexylmethoxycinnamate, was added. The time of reddening of the skin without protection and with a applied layer of cream was 3 and 5 min for the 1st person, respectively; for the 2nd - 2.5 and 4 minutes; for the third - 2.5 and 6 minutes; for the 4th - 3.5 and 7.5 minutes; for the 5th - 3 and 4 minutes; Δτ _sr = 2.5 min.

Example 8. Similar to example 7, except that 3% nanocrystalline chemisorbed silicon oxygen was added to the cream. The time of reddening of the skin without protection and with a applied layer of cream was respectively for the 1st test subject - 3 and 10 minutes; for the 2nd - 2.5 and 9 minutes; for the third - 2.5 and 12 minutes; for the 4th - 3.5 and 12.5 minutes; for the 5th - 3 and 9 min; Δτ _avg = 7.4 min.

Example 9. Similar to example 3, except that 1.5% nanocrystalline chemisorbed silicon oxygen, obtained at an oxygen concentration of 5%, is introduced into the cream. Δτ = 5.6 min.

Example 10. Similar to example 3, except that 1.5% nanocrystalline chemisorbed silicon oxygen, obtained at an oxygen concentration of 15%, is introduced into the cream. Δτ = 7.4 min.

Claims (8)

1. Cosmetic product for protection against ultraviolet radiation, containing a water-oil base and an active substance that attenuates ultraviolet radiation, characterized in that the active substance used is nanocrystalline chemisorbed oxygen silicon with a particle size of 2-50 nm, obtained in high-frequency induction plasma in argon or helium in the presence of oxygen and taken in an amount of 0.25-3%. 2. The tool according to claim 1, characterized in that it contains the said nanocrystalline chemisorbed silicon oxygen obtained in the presence of oxygen taken in an amount of 1.5-3 vol.%. 3. The tool according to claim 2, characterized in that the nanocrystalline chemisorbed oxygen silicon is taken in an amount of 5-15 wt.%. 4. The tool according to claim 1, characterized in that it is a sunscreen. 5. The tool according to claim 4, characterized in that to expand the spectrum of the protective action, it additionally contains ultraviolet absorbers that absorb waves in the region from 290 to 400 nm. 6. The tool according to any one of claims 1, 4 and 5, characterized in that it further comprises polymer microcapsules (sanspheres). 7. The tool according to any one of claims 1, 4 and 5, characterized in that it further comprises luminescent ingredients. 8. The tool according to claims 1 to 7, characterized in that the water-oil base is an emulsion of the type oil-in-water or water-in-oil.