An erodible anhydrous film useful in delivering active agents to a surface including keratinous surfaces, and hard or soft surfaces is disclosed. The erodible anhydrous film contains polyethylene oxide in combination with a support polymer, and optionally, other additives for skin care, fabric care, or hard surface cleaning. The erodible anhydrous film is useful when used as a comfort strip for enhancing shaving.

The present disclosure relates to compositions and methods of using the compositions for treating a floor surface. The disclosed compositions clean the floor surface, repair damage, or maintain the original look of the floor. The disclosed compositions also do not provide a permanent finish on the floor, are temporary coatings, or do not significantly change the gloss of the floor after application.

The invention relates to solid detergents for cleaning restaurant soils and methods of making and using the same. Embodiments of the invention can include solid cleaning compositions having an alkalinity source comprising an alkali metal carbonate, a surfactant system comprising an anionic surfactant and a nonionic surfactant, a water conditioning agent, and water. Embodiments of the invention can have a pH between about 7 and about 11, and are suitable for removing restaurant soils, including, synthetic grease, animal grease, and proteinaceous soils.

Water-soluble refill dose articles for forming a cleanser have a water-soluble film defining a first compartment enclosing a first composition and a second compartment enclosing a second composition, which are individual separate articles or are part of an integral article. The first composition has a rheology modifier, a first surfactant, 10% or less by weight water, 20% or less by weight glycol, and the first surfactant does not activate the rheology modifier. The second compartment has an alkaline substance that when mixed with the first composition and water activates the rheology modifier to increase the viscosity of a resulting cleanser and 10% or less by weight water. When the article is diluted in water at a 1:1 to 1:20 ratio, it produces a cleanser having a viscosity within a range of 2000 cps to 50,000 cps.

In one aspect is disclosed a cleansing composition comprising: (i) a surfactant; (ii) an oligodynamic metal or ions thereof; (iii) a chelating agent; and, a polymer having a group comprising a site having one or more lone pair of electrons wherein, said surfactant is soap. The polymer having a group comprising a site having one or more lone pair of electrons enhances the antimicrobial efficacy of the oligodynamic metal.

The present disclosure relates to gentle cleanser compositions, which generally include: (a) a taurate surfactant; (b) salicylic acid; (c) kaolin; d) a betaine (and/or another amphoteric surfactant) and e) an emollient. The cleanser compositions exhibit very good cleansing properties, are particularly effective for removing makeup, and are mild and moisturizing to the skin, with a good deposition of salicylic acid.

The present invention relates to a method of making a solid cleaning composition. The method can include pressing and/or vibrating a flowable solid of a self-solidifying cleaning composition. For a self-solidifying cleaning composition, pressing and/or vibrating a flowable solid determines the shape and density of the solid but is not required for forming a solid. The method can employ a concrete block machine for pressing and/or vibrating. The present invention also relates to a solid cleaning composition made by the method and to solid cleaning compositions including particles bound together by a binding agent.

Fabric care compositions comprising bi-modal water continuous emulsions are disclosed. In particular, the fabric care compositions comprise a bi-modal water continuous emulsion (E) comprising at least 70 weight percent of: a first dispersed phase containing a hydrophobic oil, wherein the hydrophobic oil is provided as a non-emulsified hydrophobic oil, and a second dispersed phase containing a silicone, wherein the silicone is provided from a water continuous silicone emulsion containing at least one surfactant. The fabric care compositions further comprise at least one fabric care ingredient (F). Optionally, the fabric care ingredient (F) is in an acceptable medium. Preparation methods and uses of the fabric care compositions are also disclosed.

Articles of manufacture, such as paper towels, that contain polymer particles, for example water-soluble polymer particles, for example water-soluble soil adsorbing polymer particles and processes for making same are provided.

The present invention is a contact lens treatment solution containing the following copolymer A and copolymer B in a ratio of A/B=40/1 to 5/1 (by weight). According to the present invention, there can be provided a contact lens treatment solution capable of removing dirt having adhered to contact lens surfaces, capable of improving lubricity of contact lens surfaces and capable of imparting persisting hydrophilicity to contact lens surfaces, by simple immersion treatment.

Copolymer A: a copolymer obtained by copolymerization of a monomer (a) represented by formula (1) and a monomer (b) represented by formula (2), in which the copolymerization ratio of the monomer (a) to the monomer (b), a/b=7/3 to 9/1 (by mol), and having a weight-average molecular weight of 400,000 to 800,000.
Copolymer B: a copolymer obtained by copolymerization of a monomer (a) represented by the formula (1) and a monomer (b) represented by the formula (2), in which the copolymerization ratio of the monomer (a) to the monomer (b), a/b=2/1 to 8/1 (by mol), and having a weight-average molecular weight of 1,000,000 to 1,500,000.