The present disclosure provides a method and system for producing antimicrobial compositions comprising transition metal ions which are generated electrolytically in aqueous solution; chelating agent and excipients; wherein the said ionic species thereby impart stability and longer shelf life and long-term efficacy. Owing to the neutral pH, colorless, odorless, tasteless, non-caustic, non-corrosive nature, the composition of example embodiments shall be used as surface disinfectant and food contact sanitizer and provides an unparalleled combination of high efficacy and low toxicity with instant kill and long-term efficacy. The specific combination of certain metals provides the ability to be extremely broad spectrum and thus works against virus, bacteria, fungi, mold, mildew and antibiotic resistant species as well.

The present disclosure provides a method and system for producing antimicrobial compositions comprising transition metal ions which are generated electrolytically in aqueous solution; chelating agent and excipients; wherein the said ionic species thereby impart stability and longer shelf life and long-term efficacy. Owing to the neutral pH, colorless, odorless, tasteless, non-caustic, non-corrosive nature, the composition of example embodiments shall be used as surface disinfectant and food contact sanitizer and provides an unparalleled combination of high efficacy and low toxicity with instant kill and long-term efficacy. The specific combination of certain metals provides the ability to be extremely broad spectrum and thus works against virus, bacteria, fungi, mold, mildew and antibiotic resistant species as well.

The process for transforming an industrial soda-lime-type base glass plate into a glazed material with antimicrobial properties and personalized color consists in an antimicrobial glazed material production process. Copper nanoparticles (NPCu) are added to said glass with the aim of directly altering cell protection against viruses and bacteria in order to destroy their genetic material. The antibacterial glass is specifically applied to the industrial sector of surfaces and covers that are usually used in hospital facilities, and covers for the handling of food and beverages, among other uses.

The process for transforming an industrial soda-lime-type base glass plate into a glazed material with antimicrobial properties and personalized color consists in an antimicrobial glazed material production process. Copper nanoparticles (NPCu) are added to said glass with the aim of directly altering cell protection against viruses and bacteria in order to destroy their genetic material. The antibacterial glass is specifically applied to the industrial sector of surfaces and covers that are usually used in hospital facilities, and covers for the handling of food and beverages, among other uses.

A process is described utilizing a composition of nano particles to form a foam and applying the foam to a surface to be disinfected.

A process is described utilizing a composition of nano particles to form a foam and applying the foam to a surface to be disinfected.

A process is described utilizing a composition of nano particles to form a foam and applying the foam to a surface to be disinfected.

The present invention is directed to an adjuvant premix composition for use with plant treatment chemicals. The adjuvant premix composition includes a thickener, a water soluble divalent salt, a foam control agent, a complexing agent, and a film forming agent. The present invention also relates to adjuvant compositions for use with plant treatment chemicals, plant treatment chemical formulations, methods of treating plants or plant seeds using the compositions of the present invention, and methods of treating a plant seed or growing plant using a plant treatment chemical and a coating material.

The present invention is directed to an adjuvant premix composition for use with plant treatment chemicals. The adjuvant premix composition includes a thickener, a water soluble divalent salt, a foam control agent, a complexing agent, and a film forming agent. The present invention also relates to adjuvant compositions for use with plant treatment chemicals, plant treatment chemical formulations, methods of treating plants or plant seeds using the compositions of the present invention, and methods of treating a plant seed or growing plant using a plant treatment chemical and a coating material.

The present invention is directed to an adjuvant premix composition for use with plant treatment chemicals. The adjuvant premix composition includes a thickener, a water soluble divalent salt, a foam control agent, a complexing agent, and a film forming agent. The present invention also relates to adjuvant compositions for use with plant treatment chemicals, plant treatment chemical formulations, methods of treating plants or plant seeds using the compositions of the present invention, and methods of treating a plant seed or growing plant using a plant treatment chemical and a coating material.