The present invention provides a method for treating crops in field or in a processing facility comprising the steps of producing a dry composition comprising a metabisulphite, a benzoate salt and a cellulose additive; preparing said dry composition as a formulation; and applying the formulation to a crop, wherein said treatment is for prevention or reduction of crop damage by plant pathogens, or reduction of bacterial, fungal or human pathogens.

The present invention provides a method for treating crops in field or in a processing facility comprising the steps of producing a dry composition comprising a metabisulphite, a benzoate salt and a cellulose additive; preparing said dry composition as a formulation; and applying the formulation to a crop, wherein said treatment is for prevention or reduction of crop damage by plant pathogens, or reduction of bacterial, fungal or human pathogens.

The present invention provides a method for treating crops in field or in a processing facility comprising the steps of producing a dry composition comprising a metabisulphite, a benzoate salt and a cellulose additive; preparing said dry composition as a formulation; and applying the formulation to a crop, wherein said treatment is for prevention or reduction of crop damage by plant pathogens, or reduction of bacterial, fungal or human pathogens.

Compositions are provided which i) consists essentially of a siloxane defoamer and an alkoxylated C4-10 alcohol, ii) are aqueous concentrates comprising composition i), an adjuvant, and an electrolyte, and iii) are aqueous formulations obtainable by diluting compositions ii). Furthermore the use of compositions i) and ii) for in the preparation of agricultural formulations iii) and the use of such formulations iii) to treat a field or plants.

Compositions are provided which i) consists essentially of a siloxane defoamer and an alkoxylated C4-10 alcohol, ii) are aqueous concentrates comprising composition i), an adjuvant, and an electrolyte, and iii) are aqueous formulations obtainable by diluting compositions ii). Furthermore the use of compositions i) and ii) for in the preparation of agricultural formulations iii) and the use of such formulations iii) to treat a field or plants.

Compositions are provided which i) consists essentially of a siloxane defoamer and an alkoxylated C4-10 alcohol, ii) are aqueous concentrates comprising composition i), an adjuvant, and an electrolyte, and iii) are aqueous formulations obtainable by diluting compositions ii). Furthermore the use of compositions i) and ii) for in the preparation of agricultural formulations iii) and the use of such formulations iii) to treat a field or plants.

Disclosed herein are compositions, devices and methods for inactivating viruses, bacteria, and fungi. The compositions, methods, and devices may include coatings or slurries such as silicon nitride powder coatings or slurries for the inactivation of viruses, bacteria, and/or fungi.

Disclosed herein are compositions, devices and methods for inactivating viruses, bacteria, and fungi. The compositions, methods, and devices may include coatings or slurries such as silicon nitride powder coatings or slurries for the inactivation of viruses, bacteria, and/or fungi.

An antimicrobial material including a substrate and an antimicrobial mixed metal oxide, mixed metal sulfide, or mixed metal oxysulfide in and/or on the substrate is described, as well as antimicrobial coating materials and coatings formed therefrom. The antimicrobial material may be constituted in an antimicrobial surface of a surface-presenting substrate, to combat transmission and spread of microbial disease, e.g., disease mediated by microbial pathogens such as bacteria, viruses, and fungi. Antimicrobial mixed metal oxide, mixed metal sulfide, or mixed metal oxysulfide as described may be contacted with microorganisms to effect inactivation thereof.

An antimicrobial material including a substrate and an antimicrobial mixed metal oxide, mixed metal sulfide, or mixed metal oxysulfide in and/or on the substrate is described, as well as antimicrobial coating materials and coatings formed therefrom. The antimicrobial material may be constituted in an antimicrobial surface of a surface-presenting substrate, to combat transmission and spread of microbial disease, e.g., disease mediated by microbial pathogens such as bacteria, viruses, and fungi. Antimicrobial mixed metal oxide, mixed metal sulfide, or mixed metal oxysulfide as described may be contacted with microorganisms to effect inactivation thereof.