Claims
- 1. Optically-activated fixed particles for use in cosmetics, toiletries, and pharmaceutical preparations to reduce the visual perception of skin imperfections such as shadows, skin discolorations, wrinkles, and cellulite, comprising:
a) a plurality of insoluble solid substrate particles; b) a fluorescent compound fixed to each of said plurality of substrate particles to form integral units in the form of optically-activated fixed particles; and c) each of said optically-activated fixed particles encapsulated with a transparent or translucent coating.
- 2. Optically activated fixed particles in accordance with claim 1, wherein each of said plurality of substrate particles has a composition selected from the group consisting of nylons, polyamides, polyacrylates, acrylics, polyesters, other plastic polymers, natural materials, regenerated cellulose, metals and minerals, or mixtures of these, wherein said substrate particles have an index of refraction greater than 1.0.
- 3. Optically-activated fixed particles in accordance with claim 1, wherein each of said plurality of substrate particles is at least 0.1μ (microns) in size, but below 50μ in size.
- 4. Optically-activated fixed particles in accordance with claim 1, wherein each of said plurality of substrate particles is at least 1.0μ (microns) in size, but below 30μ in size.
- 5. Optically-activated fixed particles in accordance with claim 1, wherein each of said plurality of substrate particles is at least 2.0μ (microns) in size, but below 15μ in size.
- 6. Optically-activated fixed particles in accordance with claim 1, wherein each of said plurality of substrate particles has a configuration or structure selected from the group consisting of a spheroid, a cuboid, a cylindrical-shaped particle, a tetrahedroid, a rhomboid, a plate, other polygonal shaped configurations, irregular shapes, and equivalents.
- 7. Optically-activated fixed particles in accordance with claim 1, wherein each of said plurality of substrate particles is solid or hollow in structure.
- 8. Optically-activated particles in accordance with claim 1, wherein said plurality of substrate particles are pre-treated to make said plurality of substrate particles water wettable and/or swollen and/or electrostatic and ionically available, wherein said plurality of pre-treated substrate particles are ready for fixation by said fluorescent compound.
- 9. Optically-activated fixed particles in accordance with claim 1, wherein said fluorescent compound is fixed to said plurality of substrate particles by ionic, covalent, or hydrogen bonding.
- 10. Optically-activated fixed particles in accordance with claim 1, wherein said fluorescent compound is fixed to said plurality of substrate particles by Van der Waals forces, or by strong or weak physio-chemical association.
- 11. Optically-activated fixed particles in accordance with claim 1, wherein said fluorescent compound is selected from the group consisting of derivatives of stilbene, 4,4′ diaminostilbene, bipehenyl, heterocycles, or any other fluorescent materials such as Tinopal 5BM, Calcofluor White RC (Stilbene 4), Calcofluor CG (Stilbene 3), and Leucophor BSB, or equivalents.
- 12. Optically-activated fixed particles in accordance with claim 1, wherein each of said optically-activated fixed particles is colorless or translucent or transparent, and non-visible to the human eye.
- 13. Optically-activated fixed particles in accordance with claim 1, wherein each of said optically-activated fixed particles has a configuration or structure selected from the group consisting of a spheroid, a cuboid, a cylindrical-shaped particle, a tetrahedroid, a rhomboid, a plate, other polygonal shaped configurations, or irregular shaped configurations, and equivalents.
- 14. Optically-activated fixed particles in accordance with claim 1, wherein each of said optically-activated fixed particles is solid or hollow in structure.
- 15. Optically-activated fixed particles in accordance with claim 1, wherein said optically-activated fixed particles are used in the making of cosmetics, toiletries and pharmaceutical preparations selected from the group consisting of skin lotions, creams, shampoos, body and skin rinse, bath gels, soaps, hair conditioners, color conditioners and rinses, hair color solutions, foundation liquids and powders (compressed or loose), tooth pastes, oral rinses, color cosmetics, and skin treatment products.
- 16. Optically-activated fixed particles in accordance with claim 1, wherein said optically-activated fixed particles both scatter and emit light in a diffuse manner to reduce the visual perception of skin imperfections, including cellulite, wrinkles, skin discolorations, and shadows, when said optically-activated fixed particles are applied to the skin surface.
- 17. Optically-activated fixed particles in accordance with claim 1, wherein said optically-activated fixed particles absorb ultraviolet light and em it visible light.
- 18. Optically-activated fixed particles in accordance with claim 1, wherein said optically-activated fixed particles absorb visible light at certain wavelengths, and emit visible light at longer wavelengths.
- 19. Optically-activated particles in accordance with claim 1, wherein said transparent and/or translucent coating, is selected from the group consisting of polyoxymethylene urea, polyoxymethylene, melamine, PVA, PCV, polyacrylates, polymethacrylates, polyvinyls, plastic polymers, organic or inorganic gels, natural or synthetic gelatins, wherein said coating forms a capsule and each capsule acts as an extra diffusing interface of emitted light, thereby increasing the diffusion of emitted and reflected light, or reducing the visual perception of skin imperfections, including cellulite, wrinkles, skin discolorations, and shadows when applied to the skin surface.
- 20. Optically-activated fixed particles in accordance with claim 1, wherein each of said encapsulated optically-activated fixed particles is a polyamide-based solid for enhancing the radial diffusing of light from each of said encapsulated optically-activated fixed particles to reduce the visual perception of skin imperfections, including shadows, skin discolorations, cellulite, wrinkles, and mild scars.
- 21. Optically-activated fixed particles in accordance with claim 1, wherein each of said encapsulated optically-activated particles has a size in the range of 0.1μ to 50μ (microns).
- 22. Optically-activated fixed particles in accordance with claim 1, wherein each of said encapsulated optically-activated particles has a size in the range of 1μ to 30μ (microns).
- 23. Optically-activated fixed particles in accordance with claim 1, wherein each of said encapsulated optically-activated particles has a size in the range of 2μ to 15μ (microns).
- 24. Optically-activated fixed particles in accordance with claim 1, wherein said encapsulated optically-activated fixed particles are used in the making of cosmetics, toiletries, and pharmaceutical preparations selected from the group consisting of skin lotions, creams, shampoos, body and skin rinses, bath gels, soaps, hair conditioners, color conditioners and rinses, hair color solutions, foundation liquids and powders (compressed or loose), tooth pastes, oral rinses, color cosmetics, skin treatment products, and any cosmetically-acceptable vehicles.
- 25. Optically-activated fixed particles in accordance with claim 1, wherein said encapsulated optically-activated fixed particles absorb light and emit and diffuse light in a diffuse manner to reduce the visual perception of skin imperfections, including cellulite, wrinkles, skin discolorations, shadows, and mild scars, when said encapsulated optically-activated particles are applied to the skin surface.
- 26. Optically-activated fixed particles for use in cosmetic, toiletries, and pharmaceutical preparations to reduce the visual perception of skin imperfections such as shadows, skin discolorations, wrinkles, and cellulite, comprising:
a) a plurality of insoluble solid substrate particles; and b) a fluorescent compound fixed to each of said plurality of substrate particles to form integral units in the form of optically-activated fixed particles.
- 27. Optically activated fixed particles in accordance with claim 26, wherein each of said plurality of substrate particles has a composition selected from the group consisting of nylons, polyamides, polyacrylates, acrylics, polyesters, other plastic polymers, natural materials, regenerated cellulose, metals and minerals, or mixtures of these.
- 28. Optically-activated fixed particles in accordance with claim 26, wherein each of said plurality of substrate particles is at least 0.1μ (microns) in size, but below 50μ in size.
- 29. Optically-activated fixed particles in accordance with claim 26, wherein each of said plurality of substrate particles is at least 1.0μ (microns) in size, but below 30μ in size.
- 30. Optically-activated fixed particles in accordance with claim 26, wherein each of said plurality of substrate particles is at least 2.0μ (microns) in size, but below 15μ in size.
- 31. Optically-activated fixed particles in accordance with claim 26, wherein each of said plurality of substrate particles has a configuration or structure selected from the group consisting of a spheroid, a cuboid, a cylindrical-shaped particle, a tetrahedroid, a rhomboid, a plate, other polygonal shaped configurations, irregular shapes and equivalents.
- 32. Optically-activated fixed particles in accordance with claim 26, wherein each of said plurality of substrate particles is solid or hollow in structure.
- 33. Optically-activated particles in accordance with claim 26, wherein said plurality of substrate particles are pre-treated to make said plurality of substrate particles water wettable and/or swollen and/or electrostatic and ionically available, wherein said plurality of pre-treated substrate particles are ready for fixation by said fluorescent compound.
- 34. Optically-activated fixed particles in accordance with claim 26, wherein said fluorescent compound is fixed to said plurality of substrate particles by ionic, covalent, or hydrogen bonding.
- 35. Optically-activated fixed particles in accordance with claim 26, wherein said fluorescent compound is fixed to said plurality of substrate particles by Van der Waals forces, or by strong or weak physio-chemical association.
- 36. Optically-activated fixed particles in accordance with claim 26, wherein said fluorescent compound is selected from the group consisting of derivatives of stilbene, 4,4′ diaminostilbene, bipehenyl, heterocycles, or any other fluorescent materials such as Tinopal 5BM, Calcofluor White RC (Stilbene 4), Calcofluor CG (Stilbene 3), and Leucophor BSB, or equivalents.
- 37. Optically-activated fixed particles in accordance with claim 26, wherein each of said optically-activated fixed particles is colorless or translucent or transparent, and non-visible to the human eye.
- 38. Optically-activated fixed particles in accordance with claim 26, wherein each of said optically-activated fixed particles has a configuration or structure selected from the group consisting of a spheroid, a cuboid, a cylindrical-shaped particle, a tetrahedroid, a rhomboid, a plate, other polygonal shaped or irregular shaped configurations, and equivalents.
- 39. Optically-activated fixed particles in accordance with claim 26, wherein each of said optically-activated particles is solid or hollow in structure.
- 40. Optically-activated fixed particles in accordance with claim 26, wherein each of said optically-activated fixed particles is a polyamide-based solid.
- 41. Optically-activated fixed particles in accordance with claim 26, wherein said optically-activated fixed particles are used in the making of cosmetics, toiletries and pharmaceutical preparations selected from the group consisting of skin lotions, creams, shampoos, body and skin rinse, bath gels, soaps, hair conditioners, color conditioners and rinses, hair color solutions, foundation liquids and powders (compressed or loose), tooth pastes, oral rinses, color cosmetics, and skin treatment products.
- 42. Optically-activated fixed particles in accordance with claim 26, wherein said optically-activated fixed particles both scatter and emit light in a diffuse manner to reduce the visual perception of skin imperfections, including cellulite, wrinkles, skin discolorations, and shadows, when said optically-activated fixed particles are applied to the skin surface.
- 43. Optically-activated fixed particles in accordance with claim 26, wherein said optically-activated fixed particles absorb ultraviolet light and em it visible light.
- 44. Optically-activated fixed particles in accordance with claim 26, wherein said optically-activated fixed particles absorb visible light at certain wavelengths and emit visible light at longer wavelengths.
- 45. Optically-activated particles in accordance with claim 26, further includes a transparent and/or translucent coating selected from the group consisting of polyoxymethylene urea, polyoxymethylene, melamine, PVA, PCV, polyacrylates, polymethacrylates, polyvinyls, plastic polymers, organic or inorganic gels, natural or synthetic gelatins, wherein said coating forms a capsule and each capsule acts as an extra diffusing interface of emitted light, thereby increasing the diffusion of emitted and reflected light, or reducing the visual perception of skin imperfections, including cellulite, wrinkles, skin discolorations, and shadows when applied to the skin surf ace.
- 46. Optically-activated fixed particles in accordance with claim 26, wherein each of said encapsulated optically-activated fixed particles is a polyamide-based solid for enhancing the radial diffusing of light from each of said encapsulated optically-activated fixed particles to reduce the visual perception of skin imperfections, including shadows, skin discolorations, cellulite, wrinkles, and mild scars.
- 47. Optically-activated fixed particles in accordance with claim 26, further including encapsulated optically-activated particles having a size in the range of 0.1μ to 50μ (microns).
- 48. Optically-activated fixed particles in accordance with claim 26, further including encapsulated optically-activated particles having a size in the range of 1μ to 30μ (microns).
- 49. Optically-activated fixed particles in accordance with claim 26, further including encapsulated optically-activated particles having a size in the range of 2μ to 15μ (microns).
- 50. Optically-activated fixed particles in accordance with claim 26, further including encapsulated optically-activated fixed particles used in the making of cosmetics, toiletries, and pharmaceutical preparations selected from the group consisting of skin lotions, creams, shampoos, body and skin rinses, bath gels, soaps, hair conditioners, color conditioners and rinses, hair color solutions, foundation liquids and powders (compressed or loose), tooth pastes, oral rinses, color cosmetics, skin treatment products, and any cosmetically-acceptable vehicles.
- 51. Optically-activated fixed particles in accordance with claim 26, further including encapsulated optically-activated fixed particles which absorb light and emit and diffuse light in a diffuse manner to reduce the visual perception of skin imperfections, including cellulite, wrinkles, skin discolorations, shadows, and mild scars, when said encapsulated optically-activated particles are applied to the skin surface.
- 52. A method of making optically-activated fixed particles for use in cosmetics, toiletries, and pharmaceutical preparations for reducing the visual perception of skin imperfections such as shadows, skin discolorations, wrinkles, and cellulite, comprising the steps of:
a) mixing a plurality of substrate particles with one or more solvents to form a mixture; b) reacting said mixture of said plurality of substrate particles with a fluorescent compound, and said fluorescent compound being in the range of 0.01% to 50.0% by weight of said mixture; c) fixing said fluorescent compound to said plurality of substrate particles to form a plurality of optically-activated fixed particles in said mixture; and d) filtering or otherwise separating said mixture to separate out said plurality of optically-activated fixed particles having said fluorescent compound being in the range of 0.0001% to 20.0% by dry weight of said composition and said substrate particles being in the range of 80.0% to 99.9999% by dry weight of said composition for use in making cosmetic, toiletries and pharmaceutical preparations.
- 53. A method ofmaking optically-activated fixed particles in accordance with claim 52, wherein said step of mixing said plurality of substrate particles with said one or more solvents includes one or more glycol derivatives to form said mixture.
- 54. A method of making optically-activated fixed particles in accordance with claim 52, wherein said step of reacting said plurality of substrate particles with said fluorescent compound being selected from the group consisting of derivatives of stilbene, 4,4′ diaminostilbene, bipehenyl, heterocycles, or any other fluorescent materials such as Tinopal 5BM, Calcofluor White RC (Stilbene 4), Calcofluor CG (Stilbene 3), and Leucophor BSB, or equivalents.
- 55. A method of making optically-activated fixed particles in accordance with claim 52, further including the step of drying said mixture to separate out said plurality of optically-activated fixed particles from said mixture.
- 56. A method of making optically-activated fixed particles in accordance with claim 52, further including the step of making said plurality of optically-activated fixed particles into cosmetic preparations selected from the group consisting of skin lotions, creams, shampoos, body and skin rinses, bath gels, soaps, hair conditioners, color conditioners and rinses, hair color solutions, foundation powders (compressed or loose), tooth pastes, oral rinses, color cosmetics, and skin treatment products, or any acceptable-cosmetic vehicle or medium.
- 57. A method of making optically-activated fixed particles in accordance with claim 52, wherein said step of separating said mixture from said plurality of optically-activated fixed particles forms a plurality of optically-activated fixed particles; and further including the step of encapsulating said plurality of optically-activated fixed particles using a transparent or translucent coating to form a plurality of encapsulated optically-activated fixed particles.
- 58. A method of making optically-activated fixed particles in accordance with claim 52, wherein said step of encapsulating said plurality of optically-activated fixed particles is performed using a polyoxymethylene urea (PMU) coating, or a PVA coating, or a melamine coating as said transparent or translucent coating.
- 59. A method of making optically-activated fixed particles in accordance with claim 52, wherein said step of encapsulating said plurality of optically-activated fixed particles is performed using one of the following selected from the group consisting of a polyoxymethylene urea, polyoxymethylene, melamine, PVA, PCV, polyacrylates, polymethacrylates, polyvinyls, plastic polymers, organic or inorganic gels, natural or synthetic gelatins to form a capsule, wherein each capsule acts as an extra diffusing interface of emitted light, thereby increasing the diffusion of emitted and reflected light, or reducing the visual perception of skin imperfections, including cellulite, wrinkles, skin discolorations, and shadows when applied to the skin surface.
- 60. A method of making optically-activated particles in accordance with claim 52, further including the step of processing said plurality of encapsulated optically-activated fixed particles into cosmetic preparations selected from the group consisting of skin lotions, creams, shampoos, body and skin rinses, bath gels, soaps, hair conditioners, color conditioners and rinses, hair color solutions, foundation powders (compressed or loose), tooth pastes, oral rinses, color cosmetics, and skin treatment products, or any acceptable-cosmetic vehicle or medium.
- 61. A method of making optically-activated fixed particles for use in cosmetics, toiletries, and pharmaceutical preparations for reducing the visual perception of skin imperfections, such as shadows, skin discolorations, wrinkles and cellulite, comprising the steps of:
a) mixing a plurality of substrate particles with one or more solvents to form a mixture; b) reacting said mixture of said plurality of substrate particles with a fluorescent compound, and said fluorescent compound being in the range of 0.01% to 50.0% by weight of said mixture; c) fixing said fluorescent compound to said plurality of substrate particles to form a plurality of optically-activated fixed particles in said mixture; d) filtering or separating said mixture to separate out said plurality of optically-activated fixed particles having said fluorescent compound being in the range of 0.0001% to 20.0% by dry weight of said composition and said substrate particles being in the range of 80.0% to 99.9999% by dry weight of said composition for use in making cosmetic, toiletries, and pharmaceutical preparations; and e) encapsulating said plurality of optically-activated fixed particles using a transparent or translucent coating.
- 62. A method of making optically-activated fixed particles in accordance with claim 61, wherein said step of mixing said plurality of substrate particles with said one or more solvents includes one or more glycol derivatives to form said mixture.
- 63. A method of making optically-activated fixed particles in accordance with claim 61, wherein said step of reacting said plurality of substrate particles includes selecting said fluorescent compound from the group consisting of derivatives of stilbene, 4,4′ diaminostilbene, bipehenyl, heterocycles, or any other fluorescent materials such as Tinopal 5BM, Calcofluor White RC (Stilbene 4), Calcofluor CG (Stilbene 3), and Leucophor BSB, or equivalents.
- 64. A method of making optically-activated fixed particles in accordance with claim 61, wherein said step of filtering includes the step of drying said mixture to separate out said plurality of optically-activated fixed particles from said complex solution.
- 65. A method of making optically-activated fixed particles in accordance with claim 61, further including the step of making said plurality of optically-activated fixed particles into cosmetic preparations selected from the group consisting of skin lotions, creams, shampoos, body and skin rinses, bath gels, soaps, hair conditioners, color conditioners and rinses, hair color solutions, foundation powders (compressed or loose), tooth pastes, oral rinses, color cosmetics, and skin treatment products, or any acceptable-cosmetic vehicle or medium.
- 66. A method of making optically-activated fixed particles in accordance with claim 61, wherein said step of separating said mixture from said plurality of optically-activated fixed particles forms a plurality of optically-activated fixed particles.
- 67. A method of making optically-activated fixed particles in accordance with claim 61, wherein said step of encapsulating said plurality of optically-activated fixed particles is performed using a polyoxymethylene urea (PMU) coating, or a PVA coating, or a melamine coating, as said transparent or translucent coating.
- 68. A method of making optically-activated fixed particles in accordance with claim 61, wherein said step of encapsulating said plurality of optically-activated fixed particles is performed using a polyoxymethylene urea, polyoxymethylene, melamine, PVA, PCV, polyacrylates, polymethacrylates, polyvinyls, plastic polymers, organic or inorganic gels, natural or synthetic gelatins, to form a capsule wherein each capsule acts as an extra diffusing interface of emitted light, thereby increasing the diffusion of emitted and reflected light, or reducing the visual perception of skin imperfections, including cellulite, wrinkles, skin discolorations, and shadows when applied to the skin surf ace.
- 69. A method of optically-activated fixed particles in accordance with claim 61, further including the step of processing said plurality of encapsulated optically-activated fixed particles into cosmetic preparations selected from the group consisting of skin lotions, creams, shampoos, body and skin rinses, bath gels, soaps, hair conditioners, color conditioners and rinses, hair color solutions, foundation powders (compressed or loose), tooth pastes, oral rinses, color cosmetics, and skin treatment products, or any acceptable-cosmetic vehicle or medium.
- 70. A method of using a composition having optically-activated fixed particles for use in cosmetics, toiletries and pharmaceutical applications in order to reduce the visual perception of skin imperfections, wherein said composition comprises:
a) a plurality of substrate particles selected from the group consisting of polyamides, polyacrylates, polyesters, other plastic polymers, natural materials, regenerated cellulose, cellulose, starch, metals, salts, minerals, and other insoluble solids; b) a fluorescent compound fixed to each of said plurality of substrate particles to form integral units in the form of optically-activated fixed particles for emitting and diffusing light to reduce the visual perception of skin imperfections, including shadows, skin discolorations, cellulite, wrinkles, and mild scars; c) each of said optically-activated fixed particles being encapsulated with a transparent or translucent coating; and d) said method comprising the step of applying said composition to a person's skin to reduce the visual perception of skin imperfections, including cellulite, shadows, wrinkles, skin discolorations, pores, follicles, blotchiness, and mild scars by using said optically-activated fixed particles to emit and diffuse light.
- 71. A method of using a composition having optically-activated fixed particles for use in cosmetics, toiletries and pharmaceutical applications in order to reduce the visual perception of skin imperfections, wherein said composition comprises:
a) a plurality of substrate particles selected from the group consisting of polyamides, polyacrylates, polyesters, other plastic polymers, natural materials, regenerated cellulose, cellulose, starch, metals, salts, minerals, and other insoluble solids; b) a fluorescent compound fixed to each of said plurality of substrate particles to form integral units in the form of optically-activated fixed particles for emitting and diffusing light to reduce the visual perception of skin imperfections, including shadows, skin discolorations, cellulite, wrinkles, and mild scars; and c) said method comprising the step of applying said composition to a person's skin to reduce the visual perception of skin imperfections, including cellulite, shadows, wrinkles, skin discolorations, pores, follicles, blotchiness, and mild scars by using said optically-activated fixed particles to emit and diffuse light.
RELATED APPLICATION
[0001] This is a divisional application of patent application Ser. No. 10/095, 669 filed on Mar. 12, 2003 which is a continuation-in-part of patent application Ser. No. 09/872,648 filed on Jun. 1, 2001.
Divisions (1)
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Number |
Date |
Country |
Parent |
10095669 |
Mar 2002 |
US |
Child |
10383366 |
Mar 2003 |
US |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
09872648 |
Jun 2001 |
US |
Child |
10095669 |
Mar 2002 |
US |