An aqueous disinfectant solution comprising peroxyacetic acid and a surfactant such as a polyoxyethylene alkyl ether phosphate, (polyethylene glycol p-(1,1,3,3-tetramethylbutyl)-phenyl ether) or cocoamidopropylamino oxide. The solution is preferably adjusted to provide a pH in the range 5-8 by a pH adjusting agent such as a phosphate buffer; hydroxide; carbonate; bicarbonate; a combination of carbonate and hydroxide; or a combination of carbonate and bi carbonate.

An aqueous disinfectant solution comprising peroxyacetic acid and a surfactant such as a polyoxyethylene alkyl ether phosphate, (polyethylene glycol p-(1,1,3,3-tetramethylbutyl)-phenyl ether) or cocoamidopropylamino oxide. The solution is preferably adjusted to provide a pH in the range 5-8 by a pH adjusting agent such as a phosphate buffer; hydroxide; carbonate; bicarbonate; a combination of carbonate and hydroxide; or a combination of carbonate and bi carbonate.

An aqueous disinfectant solution comprising peroxyacetic acid and a surfactant such as a polyoxyethylene alkyl ether phosphate, (polyethylene glycol p-(1,1,3,3-tetramethylbutyl)-phenyl ether) or cocoamidopropylamino oxide. The solution is preferably adjusted to provide a pH in the range 5-8 by a pH adjusting agent such as a phosphate buffer; hydroxide; carbonate; bicarbonate; a combination of carbonate and hydroxide; or a combination of carbonate and bi carbonate.

A packaging assembly includes a box storage compartment that forms a sealed unit package capable of containing a number of peroxyacetic acid solution-storing containers. The package has a number of reinforced compartmented spaces to hold the containers during transport and can optionally have an absorbing agent material in the spaces and/or base portion of the package. The packaging assembly allows a predetermined amount of peroxyacetic acid solution to be safely transported to an area where the solution can be easily and safely used and without the need for special equipment or handling procedures.

A packaging assembly includes a box storage compartment that forms a sealed unit package capable of containing a number of peroxyacetic acid solution-storing containers. The package has a number of reinforced compartmented spaces to hold the containers during transport and can optionally have an absorbing agent material in the spaces and/or base portion of the package. The packaging assembly allows a predetermined amount of peroxyacetic acid solution to be safely transported to an area where the solution can be easily and safely used and without the need for special equipment or handling procedures.

Provided is an antimicrobial coating material comprising one or more biocides encapsulated in inorganic-organic shells. The antimicrobial coating material can be applied on porous materials or porous media to form and antimicrobial coating without changing the physical properties and the functions of porous materials or porous media. The coating provides a durable, multi-level antimicrobial performance at high temperature through contact-killing, release-killing, anti-adhesion and self-cleaning. Also provided is a method of producing the antimicrobial coating material.

Provided is an antimicrobial coating material comprising one or more biocides encapsulated in inorganic-organic shells. The antimicrobial coating material can be applied on porous materials or porous media to form and antimicrobial coating without changing the physical properties and the functions of porous materials or porous media. The coating provides a durable, multi-level antimicrobial performance at high temperature through contact-killing, release-killing, anti-adhesion and self-cleaning. Also provided is a method of producing the antimicrobial coating material.

Provided is an antimicrobial coating material comprising one or more biocides encapsulated in inorganic-organic shells. The antimicrobial coating material can be applied on porous materials or porous media to form and antimicrobial coating without changing the physical properties and the functions of porous materials or porous media. The coating provides a durable, multi-level antimicrobial performance at high temperature through contact-killing, release-killing, anti-adhesion and self-cleaning. Also provided is a method of producing the antimicrobial coating material.

The present disclosure relates to methods and systems for making one or more antimicrobial compositions and/or one or more virucidal disinfectant compositions. Said methods and systems include exposing a vegetable oil composition to ozone gas to cause ozonolysis of on one or more unsaturated fatty acids present in the vegetable oil composition, thereby forming an ozonated vegetable oil composition and exposing the ozonated vegetable oil composition to a temperature greater than 60° C. while in contact with water to decompose one or more ozonide compounds and form a heat-treated, ozonated vegetable oil composition. The present disclosure also relates to one or more uses of said one or more antimicrobial compositions and/or one or more virucidal disinfectant compositions.

A composition and method are used to treat articles suspected of contamination with bacterial spores. The composition and method are effective against bacterial spores selected from C. diff., C. botulinum, C. sporogenes, B. cereus, and B. subtilis. The article can be a textile or a hard surface. The method includes preparing a first use solution by mixing ether amine in water and a second use solution by mixing percarboxylic acid in water; applying the first use solution to the article; and applying the second use solution to the article. An alternative method includes preparing a mixture of ether amine, percarboxylic acid, and water, and applying the mixture to the article.