A dry film coating composition comprising a cellulose film former, an oligofructose fiber, a plasticizing agent, and a processing aid is disclosed herein. Also provided is a film coating suspension comprising a cellulose film former, an oligofructose fiber, a plasticizing agent, a processing aid, and a solvent. The film coating suspension may be applied to a substrate, such as, for example, nutritional supplements, pharmaceuticals, tablets, capsules, softgels, granules, particles (e.g., micro- and nano-particles), agricultural seeds, and the like to form a dry film coating on the substrate. Methods of coating a substrate with the film coating suspensions are also provided.
An enteric coating composition including about 0.01 % to about 10% resin and about 0.01 % to about 10% polymer. The enteric coating composition may be applied to a substrate, such as a pharmaceutical, nutraceutical, fruit, vegetable, agricultural product, or industrial product, to form an enteric coating on the substrate. Also provided is a multiple-component system having a first component including a resin and a second component including a polymer, wherein mixing the first component and the second component forms an enteric coating composition having about 0.01 % to about 10% resin and about 0.01 % to about 10% polymer. Methods for coating a substrate with the enteric coating compositions are also provided.
Composition having a blue color including a buffer, an anthocyanin, and a divalent ion source. The composition may comprise an anthocyanin and a divalent ion source, wherein the average variation of ΔE*ab of the composition is less than 30% of the average variation of ΔE*ab of a control composition after exposure of the composition and the control composition to a 400 to 765 W/m2 light source for a period of time. The composition may comprise an anthocyanin and a divalent ion source, wherein the composition exhibits a less than 20% change in the area beneath the reflectance colorimeter spectral curve of the composition from 430 nm to 530 nm measured over a period of time. In another aspect, a method of stabilizing a blue colorant is provided. The method may comprise combining a buffer, an anthocyanin, and a divalent ion source.
C09B 61/00 - Colorants naturels préparés à partir de sources naturelles
C09B 67/00 - Traitements, sans réaction chimique, influençant les propriétés physiques, p. ex. de teintures ou d'impression, des matières colorantes, p. ex. traitement par des solvantsCaractéristiques du procédé de fabrication des préparations tinctorialesPréparations tinctoriales ayant un aspect physique particulier, p. ex. tablettes, feuilles
A23L 1/275 - Addition de colorants ou de pigments avec ou sans adjuvants optiques
4.
NATURAL BLUE-SHADE COLORANTS AND METHODS OF MAKING AND USING SAME
Composition having a blue color including a buffer, an anthocyanin, and a divalent ion source. The composition may comprise an anthocyanin and a divalent ion source, wherein the average variation of ?E*ab of the composition is less than 30% of the average variation of ?E*ab of a control composition after exposure of the composition and the control composition to a 400 to 765 W/m2 light source for a period of time. The composition may comprise an anthocyanin and a divalent ion source, wherein the composition exhibits a less than 20% change in the area beneath the reflectance colorimeter spectral curve of the composition from 430 nm to 530 nm measured over a period of time. In another aspect, a method of stabilizing a blue colorant is provided. The method may comprise combining a buffer, an anthocyanin, and a divalent ion source.
C09B 61/00 - Colorants naturels préparés à partir de sources naturelles
C09B 67/00 - Traitements, sans réaction chimique, influençant les propriétés physiques, p. ex. de teintures ou d'impression, des matières colorantes, p. ex. traitement par des solvantsCaractéristiques du procédé de fabrication des préparations tinctorialesPréparations tinctoriales ayant un aspect physique particulier, p. ex. tablettes, feuilles
5.
Natural blue-shade colorants and methods of making and using same
2 light source for a period of time. The composition may comprise an anthocyanin and a divalent ion source, wherein the composition exhibits a less than 20% change in the area beneath the reflectance colorimeter spectral curve of the composition from 430 nm to 530 nm measured over a period of time. In another aspect, a method of stabilizing a blue colorant is provided. The method may comprise combining a buffer, an anthocyanin, and a divalent ion source.
A method of modifying a particle that includes reacting a reactive compound having an X-[Y]n reactive group with a secondary compound N-S-ZM to form a substituted reactive intermediate [Y]a-X-(N-S-ZM)b, and reacting the particle with the substituted reactive intermediate [Y]a-X-(N-S-ZM)b to attach the substituted reactive intermediate to the surface of the particle to form a surface modified particle. The particle may comprise at least one of a dye particle, an inorganic pigment particle, an additive, or a combination thereof. X may be a sulfonyl, phosphoryl, or 1,3,5-triazinyl group. Y may be a halogen leaving group. N may be a nucleophilic group. S may be an organic group. ZM may be an ionizable end group. Also, n is an integer between 1 and 3, b is an integer between 1 and 3, and a = n-b. When n is equal to or greater than b, and wherein if b is 2 or 3, each N-S-ZM can be the same or different.
A modified pigment that may include a polymer. The pigment may be directly attached to a nitrogen atom. The nitrogen atom may be attached directly or indirectly to a group that may include -S-Z. S may be a substituted or unsubstituted alkyl group, substituted or unsubstituted aromatic group, or polymer chain having a molecular weight range from about 300 to about 20000. Z may be a hydrogen, carboxyl, sulfonyl, phenolic, phosphoryl, ammonium, trimethylammonium, or tributylammonium group. Also, a modified pigment that may include a polymer. The pigment may be attached to an organic group through a carbon atom that is part of a N-C=N bond. A cosmetic formulation that may include a pigment covalently bonded to an organic group.
C09B 67/00 - Traitements, sans réaction chimique, influençant les propriétés physiques, p. ex. de teintures ou d'impression, des matières colorantes, p. ex. traitement par des solvantsCaractéristiques du procédé de fabrication des préparations tinctorialesPréparations tinctoriales ayant un aspect physique particulier, p. ex. tablettes, feuilles
C09B 67/08 - Colorants ou pigments particulaires enrobés
C09B 67/22 - Mélanges de pigments ou de colorants différents, ou de solutions solides de pigments ou de colorants
C09B 67/40 - Préparations à base de colorants dispersés à l'état liquide
A method of modifying a pigment that includes reacting a reactive compound having an X-[Y]n reactive group with a secondary compound N-S-ZM to form a substituted reactive intermediate [Y]a-X-(N-S-ZM)b. A pigment is reacted with the substituted reactive intermediate [Y]a-X-(N-S- ZM)b to attach the substituted reactive intermediate to the surface of the pigment to form a surface modified pigment. X may be a sulfonyl, phosphoryl, or 1,3,5-triazinyl group, Y may be a halogen leaving group, N may be a basic nucleophilic group, S may be an organic group, and ZM may be an ionizable end group. Also, n is an integer between 1 and 3, b is an integer between 1 and 3, and a = n-b. When n is equal to or greater than b, and if b is 2 or 3, each N-S- ZM can be the same or different.
A method of imparting pearlescence to a food product that includes applying a ready-to- use dispersion to a food product using confectionary panning, where the ready-to-use dispersion includes a pearlescent pigment, a cellulose derivative in an amount sufficient to enhance viscosity of the dispersion and impart a barrier coat to the food product, and a wax in an amount sufficient to impart a gloss to the food product. A method of incorporating a pearlescent pigment into a food product that includes applying a dispersion to a food product using panning, where the dispersion includes a pearlescent pigment, a viscosity enhancer, a fluid carrier, and a gloss agent.
5 alkyl groups, may be associated with the surface modifying groups. The modified pigment is combined with water to produce a dispersion that can be used in such applications as coatings, paints, papers, adhesives, latexes, toners, textiles, fibers, plastics and inks.
C09B 67/00 - Traitements, sans réaction chimique, influençant les propriétés physiques, p. ex. de teintures ou d'impression, des matières colorantes, p. ex. traitement par des solvantsCaractéristiques du procédé de fabrication des préparations tinctorialesPréparations tinctoriales ayant un aspect physique particulier, p. ex. tablettes, feuilles
C09B 67/10 - Modification des propriétés physiques par traitement par un liquide, p. ex. par un solvant
C09B 67/14 - Modification des propriétés physiques par traitement par un acide
C09B 67/16 - Modification des propriétés physiques par traitement par un acide de phtalocyanines
C09B 67/20 - Préparations à base de pigments organiques
13.
MODIFIED PIGMENTS AND METHODS FOR MAKING AND USING THE SAME
A method of producing a modified pigment by sulfonating a pigment and subsequently oxidizing the pigment. The modified pigment may have sulfonic acid and carboxyl surface modifying groups attached to the surface of the pigment. Charge balancing counterions such as alkali metals, alkaline earth metals and NR1R2R3H+, where R1, R2 and R3 are independently H or C1-C5 alkyl groups, may be associated with the surface modifying groups. The modified pigment is combined with water to produce a dispersion that can be used in such applications as coatings, paints, papers, adhesives, latexes, toners, textiles, fibers, plastics and inks.
An ink composition that includes a self-dispersing pigment that has about 0.02 to about 1.0 mMoles of S and about 0.2 to about 2.0 mMoles of active hydrogen per gram of pigment, water, and an organic solvent. A method of making an ink composition that includes sulfonating a pigment, subsequently oxidizing the pigment to produce a modified pigment, and incorporating the modified pigment into an ink.
A method of imparting flavor to an edible substrate by precision depositing a first food grade flavored fluid onto a surface of an edible substrate. A method of providing a flavored image on an edible substrate by ink jet printing a food grade colored fluid, where the food grade colored fluid includes a food grade dye, a food grade glycol, and a surface tension modifier to create an image and spraying a food grade flavored fluid onto the edible substrate. In addition, a method of providing a flavored image on an edible substrate by ink jet printing a food grade colored fluid to create an image and spraying a food grade flavored fluid comprising a food grade flavor and a food grade glycol onto the edible substrate.
An edible substrate treated with an edible substrate enhancer and printed with an image. Methods for treating edible substrates with an edible substrate enhancer, and for printing an image onto the treated edible substrate are provided.
B41F 33/00 - Dispositifs indicateurs, dispositifs de comptage, d'avertissement, de commande ou de sécurité
A23P 1/08 - Revêtement de produits alimentaires; Produits de revêtement à cet effet; Fabrication de produits alimentaires feuilletés, multicouches ou fourrés
17.
COLORANTS SURFACE TREATED WITH URETHANES AND METHODS FOR MAKING AND USING THE SAME
Compositions including colorants surface-treated with silicone polyurethanes, and methods for making surface-treated colorant products, are provided. Cosmetic, . .. personal care, skin care, nail and hair products including the surface treated colorants are disclosed. Also provided are methods for improving the hydrophobicity, or the adherence to the surface of skin, of a colorant. The methods include surface-treating a colorant with an effective amount of a silicone polyurethane to form a surface-treated colorant having an improved hydrophobilicy or an improved adherence to a skin surface compared to the colorant before surface-treatment.
Modified colorants are made from a modifying agent, such as platelet alumina, and a colorant. The colorant may be fixed to the surface of the modifying agent, optionally with a surface treatment. The colorant may not completely coat the surface of the modifying agent, and the edge of the modifying agent may be substantially free of colorant. The modified colorants may be used in cosmetic products.
Modified colorants are made from a modifying agent, such as platelet alumina, and a colorant. The colorant may be fixed to the surface of the modifying agent, optionally with a surface treatment. The colorant may not completely coat the surface of the modifying agent, and the edge of the modifying agent may be substantially free of colorant. The modified colorants may be used in cosmetic products.
