Abstract: The present disclosure related generally to an odor reducing composition comprising a morpholinium compound present in an amount in the range of 0.1-1.5 wt. %; sodium alginate present in an amount in the range of 0.01-0.5 wt. %; a surfactant composition present in an amount in the range of 15-35 wt. %; and water present in an amount in the range of 50-90 wt. %.

Abstract: A composition of odor control that includes soya-ethyl morpholinium ethosulfate (SME) and sodium alginate (ALG). The composition has a synergetic effect in eliminating residual odors. The composition can be used in a variety of formulations for handwash, laundry, spray, floor, and the like.

Abstract: The present disclosure relates to fragrance materials encapsulated within polymeric materials in the form of microcapsules of polymer encapsulated fragrance. The microcapsules are mixed with a water-based binding agent so that a coating forms on the microcapsule in situ, after which the coated microcapsules may be applied to hard surfaces of a product, from which controlled release of the fragrance is provided over time as the product is subjected to normal handling by a user.

Abstract: The present disclosure relates to fragrance materials encapsulated within polymeric materials in the form of microcapsules of polymer encapsulated fragrance. The microcapsules are mixed with a water-based binding agent so that a coating forms on the microcapsule in situ, after which the coated microcapsules may be applied to hard surfaces of a product, from which controlled release of the fragrance is provided over time as the product is subjected to normal handling by a user.

Abstract: The present disclosure relates to fragrance materials encapsulated within polymeric materials in the form of microcapsules of polymer encapsulated fragrance. The microcapsules are mixed with a water-based binding agent so that a coating forms on the microcapsule in situ, after which the coated microcapsules may be applied to hard surfaces of a product, from which controlled release of the fragrance is provided over time as the product is subjected to normal handling by a user.

Abstract: The present disclosure relates to fragrance materials encapsulated within polymeric materials in the form of microcapsules of polymer encapsulated fragrance. The microcapsules are mixed with a water-based binding agent so that a coating forms on the microcapsule in situ, after which the coated microcapsules may be applied to hard surfaces of a product, from which controlled release of the fragrance is provided over time as the product is subjected to normal handling by a user.

Abstract: The present disclosure relates to fragrance materials encapsulated within polymeric materials in the form of microcapsules of polymer encapsulated fragrance. The microcapsules are mixed with a water-based binding agent so that a coating forms on the microcapsule in situ, after which the coated microcapsules may be applied to hard surfaces of a product, from which controlled release of the fragrance is provided over time as the product is subjected to normal handling by a user.

Abstract: A method of imparting enduring beneficial features to a hard flocked surface of an article is provided. The method includes encapsulating a desired beneficial agent as a core material in a polymeric microcapsule, and transferring polymeric microcapsule to the surface by a dipping, spraying, or padding application. The beneficial agent, after getting transferred to the surface of a hard flocked article, imparts long lasting performance, provides fragrance and may protect an article from odor, insect, pest, fungi, bacteria, viruses, and the like. The polymeric microcapsules deliver long lasting benefits to surfaces with flocking, such as clothes hangers. Also described is a process for manufacture of flocked items with benefit delivering polymer microcapsules, without the need for binders or adhesives. Benefit agents are released with shear force on the flocked surface, so they are released when used and provide long-lasting performance.

Abstract: An article, primarily for use in detergent compositions, comprising an enzyme dispersed in a water-soluble resin film. Plasticizers, suds modifiers, solids, and surface-active agents may also be dispersed in said article.