A composition having biocidal properties is disclosed. The composition includes a biocide in combination with a film forming component. In one embodiment, for instance, the biocide comprises an amine while the film forming component comprises one or more polyvinyl alcohol polymers. The disinfectant composition forms a film on a surface that is abrasion resistant and will provide biocidal activity over an extended period of time, while being completely water dispersible.

A composition having biocidal properties is disclosed. The composition includes a biocide in combination with a film forming component. In one embodiment, for instance, the biocide comprises an amine while the film forming component comprises one or more polyvinyl alcohol polymers. The disinfectant composition forms a film on a surface that is abrasion resistant and will provide biocidal activity over an extended period of time, while being completely water dispersible.

A composition having biocidal properties is disclosed. The composition includes a biocide in combination with a film forming component. In one embodiment, for instance, the biocide comprises an amine while the film forming component comprises one or more polyvinyl alcohol polymers. The disinfectant composition forms a film on a surface that is abrasion resistant and will provide biocidal activity over an extended period of time, while being completely water dispersible.

This invention relates to odor control molecules comprised of polyethyleneimine compounds containing N-halamine and derivatives thereof.

This invention relates to odor control molecules comprised of polyethyleneimine compounds containing N-halamine and derivatives thereof.

Provided is a herbicidal composition containing ethyl [3-[2-chloro-4-fluoro-5-(1-methyl-6-trifluoromethyl-2,4-dioxo-1,2,3,4-tetrahydropyrimidin-3-yl)phenoxy]-2-pyridyloxy]acetate and one or more dicamba salts selected from the group consisting of dicamba diglycolamine salt and dicamba N,N-bis(3-aminopropyl)methylamine salt. The herbicidal composition can exert an excellent control efficacy on weeds.

Provided is a herbicidal composition containing ethyl [3-[2-chloro-4-fluoro-5-(1-methyl-6-trifluoromethyl-2,4-dioxo-1,2,3,4-tetrahydropyrimidin-3-yl)phenoxy]-2-pyridyloxy]acetate and one or more dicamba salts selected from the group consisting of dicamba diglycolamine salt and dicamba N,N-bis(3-aminopropyl)methylamine salt. The herbicidal composition can exert an excellent control efficacy on weeds.

The invention relates to the field of microflora destruction technologies (bacteria, protozoan fungi, etc.), namely microorganisms in sessile state (hereinafterbiofilm), and can be used in medicine, industry, agriculture and various fields of technology for the destruction of biological films which are highly organized communities of bacteria in the extracellular polymeric substance (hereinafter referred to as the exopolymer matrix) formed on surfaces of different origin (biological, industrial, etc.). Pre-prepare the composition for the destruction of microorganisms in sessile state, for which dissolve the oxidizing agent and the substance that blocks the OH-group, in a solvent. An aqueous solution of sodium peroxodisulfate at a concentration of 10.00 wt. % And sodium hydroxide at a concentration of 15.00 wt. % Is used as components from which the composition is prepared for the destruction of microorganisms in the sessile state. Since the pH of the composition is greater than 10.50, no protective reagent is added. After preparation of the composition for the destruction of microorganisms in sessile state, it is introduced into the object, the surface of which contains a biofilm. As a result of the introduction of the claimed composition for the destruction of microorganisms in the sessile state and its exposure for 10 minutes, the quantitative indicator of the enzyme urease of the material from the root canal was 0.00 kat/l, which indicates that a complete destruction (dissolution) of the exopolymeric biofilm matrix occurred and bacteria that have passed into the plankton form are completely destroyed by the bactericidal action of the claimed composition.

The invention relates to the field of microflora destruction technologies (bacteria, protozoan fungi, etc.), namely microorganisms in sessile state (hereinafterbiofilm), and can be used in medicine, industry, agriculture and various fields of technology for the destruction of biological films which are highly organized communities of bacteria in the extracellular polymeric substance (hereinafter referred to as the exopolymer matrix) formed on surfaces of different origin (biological, industrial, etc.). Pre-prepare the composition for the destruction of microorganisms in sessile state, for which dissolve the oxidizing agent and the substance that blocks the OH-group, in a solvent. An aqueous solution of sodium peroxodisulfate at a concentration of 10.00 wt. % And sodium hydroxide at a concentration of 15.00 wt. % Is used as components from which the composition is prepared for the destruction of microorganisms in the sessile state. Since the pH of the composition is greater than 10.50, no protective reagent is added. After preparation of the composition for the destruction of microorganisms in sessile state, it is introduced into the object, the surface of which contains a biofilm. As a result of the introduction of the claimed composition for the destruction of microorganisms in the sessile state and its exposure for 10 minutes, the quantitative indicator of the enzyme urease of the material from the root canal was 0.00 kat/l, which indicates that a complete destruction (dissolution) of the exopolymeric biofilm matrix occurred and bacteria that have passed into the plankton form are completely destroyed by the bactericidal action of the claimed composition.

A method for imparting to an article or product antimicrobial activity includes a step of applying an antimicrobial agent containing an antimicrobial polyaminosilane to the article or product. The antimicrobial polyaminosilane is prepared by subjecting an aminosilane monomer to a hydrolysis and condensation reaction. The antimicrobial polyaminosilane thus prepared is free of halide ions.