Effervescent compositions for preparing home care products and methods for preparing the same are disclosed. The effervescent compositions may include an effervescent base, one or more surfactants, one or more solidifying agents, and one or more disintegrant agents. The effervescent base may include one or more alkali metal carbonates and one or more acids. The one or more alkali metal carbonates and the one or more acids may be present in a weight ratio of from about 1:1 to about 5:1. The effervescent composition may be substantially free of water. The effervescent composition may have a dissolution time of from about 6 min to about 12 min. The method for preparing the effervescent composition may include contacting the effervescent base, the surfactants, the solidifying agents, and the disintegrant agents with one another to prepare a mixture, which may be a homogenous mixture.

A laundry composition including a plurality of granules, where each of said granules has a longest dimension of no less than 3 mm and no more than 12 mm, and an aspect ratio of no more than 5, and each of said granules has a mass from 1 mg to 1 g; wherein said granules comprise 25% to 99.9% of a water soluble carrier by weight of the granules. The laundry composition also includes from 0.1% to 10% of a plurality of fine particles, by weight of the laundry composition, said fine particles having an average particle size of 0.05 μm to 50 μm.

The present composition relates to effervescing compositions used in the treatment of toilets, and in particular malodours which may emanate therefrom, as well as methods of making such compositions and methods of their use. The compositions may be in pulvurent form which may be a granular form, or may be in a solid form such as a tablet.

Methods for disinfecting a surface are provided which include contacting a surface with a solution comprising Fe(VI)O.sub.4.sup.2−, thereby disinfecting the surfaces. In some cases, the surface to be contacted with the solution is in a space suitable for human occupancy and the surface is arranged in the ambient of the space. In addition, solutions comprising Fe(VI)O.sub.4.sup.2− are provided. The solutions may additionally include a hypohalite salt and a surfactant.

Described herein is an automatic dishwashing (ADW) composition including as component (A) at least one imidazole-based compound selected from the group consisting of unsubstituted or at least monosubstituted imidazole and benzimidazole. The automatic dishwashing composition may include further components, such as polyakylene imines (component (B)), at least one silicate (component (C)) and/or at least one chelating agent (component (D)). Also described herein is a process for cleaning dishware using said ADW composition as well as a method of using said ADW composition, for example, to reduce any corrosion on the items to be dishwashed (dishware). Also described herein is a method of using at least one imidazole-based compound according to component (A) as a corrosion inhibitor in automatic dishwashing processes.

The disclosure provides compositions and methods for making a colorized solution of an aqueous disinfectant that is both stable in bulk solution and will fade to clear within a predetermined period of time after being applied to a surface, for example as a spray or film. The compositions and methods described here allow an end user to visualize both the extent of coverage and the duration of contact of the disinfectant with the surface, thereby providing more efficient disinfection of the surface.

Polishing compositions are disclosed for simultaneously removing particles from a surface that has been polished using a CMP slurry comprising a polishing rate accelerator and removing a pad stain from a polishing pad that has been contacted with a CMP slurry comprising a polishing rate accelerator.

Cleaning compositions for post-CMP cleaning of semiconductor surfaces, comprise one or more reducing agents, a particle removal agent, a surfactant, and a base. When one or more reducing agents yields a standard reduction potential of less than 1.224 V, the cleaning composition of the present disclosure is able to remove a MnO.sub.2 pad stain from a polishing pad and reduce defects on a polished surface (by removing particles).

A solution for treating contact lens is provided. The solution includes about 0.01-1.0 parts by weight (pbw) of a polymer having phosphorylcholine groups, about 0.01-1 pbw of an inorganic salt, and about 100 pbw of water. The polymer has a number-average molecular weight of about 4,000 to about 1,000,000 daltons and has a structure of formula (I):

##STR00001##

wherein, in formula (I), m is a positive integer, n is zero or a positive integer, and R is C.sub.2-C.sub.12 alkyl group or C.sub.2-C.sub.12 hydroxyalkyl group. When n is a positive integer, m/n is greater than 1.

The present disclosure relates to a cleaning composition for removing an oxide including one selected from an organic acid, an inorganic acid, and any combination thereof; one selected from an organic salt, an inorganic salt, and any combination thereof; an oxidizing agent; a surfactant; and water, and a method of cleaning using the cleaning composition.

A method of automatic dishwashing of dishware, including electrolytically generating a bleaching species, washing the dishware with a composition comprising the bleaching species, and washing the dishware with a composition including an enzyme. The invention also includes an automatic dishwasher including a wash tank, an electrochemical cell, and a first reservoir containing a composition including an enzyme, wherein the electrochemical cell contains a solution including an alkali metal chloride salt, wherein the dishwasher is configured to electrolyze the solution, and to dose the electrolyzed solution into the wash tank before dosing the composition including the enzyme into the wash tank. The invention also includes a kit for use in the method of automatic dishwashing of dishware.