The present disclosure describes stable aqueous suspension concentrate formulations that include one or more water-insoluble or partially water-soluble agrochemical active ingredient(s), optionally a rosin, and a sulfopolymer. The present disclosure also describes methods of making and using such formulations in agriculture.

The present disclosure describes stable aqueous suspension concentrate formulations that include one or more water-insoluble or partially water-soluble agrochemical active ingredient(s), optionally a rosin, and a sulfopolymer. The present disclosure also describes methods of making and using such formulations in agriculture.

The present invention is directed to a pesticidal mixture comprising one or more milbemycins and one or more pyrethroids. The present invention is further directed to a method of controlling pests comprising applying a mixture of the present invention to an area in need of pest control.

The present invention is directed to a pesticidal mixture comprising one or more milbemycins and one or more pyrethroids. The present invention is further directed to a method of controlling pests comprising applying a mixture of the present invention to an area in need of pest control.

The present disclosure describes a composition including a sulfopolymer, and one or more agrochemicals. The composition exhibits increased rainfastness as compared to the same composition without the sulfopolymer. The present disclosure also describes methods of making and using such emulsion formulations in agriculture.

The present disclosure describes a composition including a sulfopolymer, and one or more agrochemicals. The composition exhibits increased rainfastness as compared to the same composition without the sulfopolymer. The present disclosure also describes methods of making and using such emulsion formulations in agriculture.

The present invention is related to methods and compositions that can be applied to personal cleaning, oral care, deodorant and hard surface cleaning applications, including liquid soap, foaming soap, liquid dishwashing detergent, shower gel, shampoo, emulsified deodorant, mouthwash, toothpaste and facial cleanser in order to reduce or eliminate microbes on a surface or body part.

The present invention is related to methods and compositions that can be applied to personal cleaning, oral care, deodorant and hard surface cleaning applications, including liquid soap, foaming soap, liquid dishwashing detergent, shower gel, shampoo, emulsified deodorant, mouthwash, toothpaste and facial cleanser in order to reduce or eliminate microbes on a surface or body part.

A disinfectant system, comprising a first aqueous composition having a peracid reactant compound that is either a peroxide compound or an organic acid compound, and a second aqueous composition comprising the peracid reactant compound not selected for the first composition. Each composition is applied separately to, and combined upon, a surface to form a reaction layer, within which a peracid is formed in situ, disinfecting the surface. The compositions can have a flash point, surface tension, and vapor pressure compatible for application as a spray, mist, aerosol, or fog, and can be formulated with an alcohol blend that enables the reaction layer to completely evaporate from the surface after disinfection is complete. In use, the disinfectant systems disclosed herein have up 99.999% antimicrobial efficacy against organism such as Staphylococcus aureus, Pseudomonasaeruginosa, and Candida auris.

A disinfectant system, comprising a first aqueous composition having a peracid reactant compound that is either a peroxide compound or an organic acid compound, and a second aqueous composition comprising the peracid reactant compound not selected for the first composition. Each composition is applied separately to, and combined upon, a surface to form a reaction layer, within which a peracid is formed in situ, disinfecting the surface. The compositions can have a flash point, surface tension, and vapor pressure compatible for application as a spray, mist, aerosol, or fog, and can be formulated with an alcohol blend that enables the reaction layer to completely evaporate from the surface after disinfection is complete. In use, the disinfectant systems disclosed herein have up 99.999% antimicrobial efficacy against organism such as Staphylococcus aureus, Pseudomonasaeruginosa, and Candida auris.