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.

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.

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.

The invention relates to a method of automatic dishwashing, comprising: placing soiled wares inside a cleaning volume; providing a first cleaning composition comprising a bleach and a second cleaning composition different from the first composition; and delivering the first composition and the second composition separately to the cleaning volume to contact the soiled wares, wherein: the first composition is delivered to the cleaning volume as a mist and the second composition is delivered to the cleaning volume as a jet; and the first and second compositions are delivered to the cleaning volume at a temperature below 100° C. The invention also relates to a dishwasher and a kit for use in the inventive method.

The oxidizing and bleaching effect of peroxygen compounds at low temperatures was to be improved. This was substantially achieved through the use of organic peroxoacids under perhydrolysis conditions with compounds which form cationic groups and in which a quaternary nitrogen atom is part of a heterocyclic 5-membered functional group.

The present invention relates to compounds which form, under perhydrolysis conditions, certain cationic organic peracids, to the use of said compounds for activating peroxygen compounds in the context of bleaching stains when washing textiles and cleaning hard surfaces, and to washing and cleaning agents that contain said compounds.

Provided are: a container for chlorine-based liquid bleaching agent composition including a resin composition containing a polyester resin (A), a pigment (B) and a polyamide resin (C), wherein a content of the polyester resin (A) is 90 to 99 mass %, and a mass ratio [(B)/(C)] of the (B) and the (C) is 1/99 to 20/80; and a bleaching agent article including a container having a chlorine-based liquid bleaching agent composition accommodated therein.

Methods, systems, and apparatuses for producing one or more of trioxygen, reactive nitrogen species, hydrogen, oxygen, and electronically modified oxygen derivatives from oxidizing agents that are exposed to certain frequencies of radiation, exposed for certain amounts of time, and exposed to certain intensities of radiation. The oxidizing agent or oxidizing agents can be exposed to multiple frequencies of radiation and multiple exposures of radiation. A combination of one or more oxidizing agents and radiation of certain wavelengths forms a synergistic reaction. The synergistic reaction generates, among other agents, RNS, EMODs, which can further produce variation in the standard chemical reaction associated with the decomposition of the oxidizing agent. This reaction variation may produce RNS, trioxygen, hydrogen and/or its isotopes, and/or oxygen and/or its isotopes and/or electronically modifies oxygen derivatives. This synergistic reaction has a relationship to EMOD creation, Oxygen and its isotope generation and hydrogen and its isotope generation.

A formulation delivery system for use with an outdoor cleaning device is provided. The formulation delivery system has a composition containing chlorine, wherein the composition is in a form of a solid chemistry and the outdoor cleaning device is a spray wand containing the composition. The chlorine is selected from the group consisting of calcium hypochlorite; 1,3,5-Triazine-2,4,6(1H,3H,5H)-trione, 1,3-dichloro-, sodium salt, dihydrate (dichlor); 1,3,5-Trichloro-1,3,5-triazinane-2,4,6-trione (trichlor), chloramine-T hydrate, and a combination thereof. A spray wand having a refill cartridge for containing the composition in solid form is also provided.

The present invention relates to a method of washing textile articles that can be carried out, for example, in a continuous batch tunnel washer. Embodiments of the present method can include treating the textile with an aqueous composition including cleaning agent and halogen-containing bleaching agent for a time sufficient to remove soil from the textile and contacting the halogen-treated textile with an aqueous composition including a peroxycarboxylic acid. The concentration of halogen after the sufficient time can be at a level that does not result in adverse interaction between the halogen-containing bleaching agent and the peroxycarboxylic acid.

Embodiments of the present method can clean textiles with the results of more effective stain removal and less waste through destruction of the textile article. Further, the present invention can clean a textile contacted soiled by a composition including chlorhexidine gluconate without resulting staining of the textile, which staining could have been permanent.