Techniques regarding chemical compounds with antimicrobial functionality are provided. For example, one or more embodiments describe herein can comprise a monomer that can comprise a molecular backbone. The molecular backbone can comprise a bis(urea)guanidinium structure covalently bonded to a functional group, which can comprise a radical. Also, the monomer can have supramolecular assembly functionality.

The invention relates to herbicidal active compound combinations comprising, carbamoyltriazolinones, and herbicidally active compounds, which combinations are suitable for controlling weeds.

The invention relates to herbicidal active compound combinations comprising, carbamoyltriazolinones, and herbicidally active compounds, which combinations are suitable for controlling weeds.

The present disclosure relates to the technical field of crop protection. The present disclosure primarily relates to microcapsules comprising a polymeric shell wall and a water-immiscible core material comprising (i) an acetamide herbicide, (ii) diflufenican and (iii) an organic non-polar solvent. The present disclosure also relates to herbicidal compositions comprising these microcapsules, methods for preparing these microcapsules and methods of using these microcapsules and herbicidal compositions for controlling weeds.

The present disclosure relates to the technical field of crop protection. The present disclosure primarily relates to microcapsules comprising a polymeric shell wall and a water-immiscible core material comprising (i) an acetamide herbicide, (ii) diflufenican and (iii) an organic non-polar solvent. The present disclosure also relates to herbicidal compositions comprising these microcapsules, methods for preparing these microcapsules and methods of using these microcapsules and herbicidal compositions for controlling weeds.

The invention relates to co-crystals of metalaxyl and prothioconazole, to methods of making them, to compositions containing them and to the methods of using said co-crystals and said compositions to treat crops and plants.

The invention relates to co-crystals of metalaxyl and prothioconazole, to methods of making them, to compositions containing them and to the methods of using said co-crystals and said compositions to treat crops and plants.

Herbicidal compositions containing (a) an amide herbicide selected from flufenacet, dimethenamid or a stereoisomer thereof, acetochlor, or metolachlor or a stereoisomer thereof, (b) fomesafen or an agriculturally acceptable salt thereof, and (c) saflufenacil are disclosed, wherein components (a), (b) and (c) are present in amounts effective to reduce the phytotoxicity of the saflufenacil. Methods of making and using herbicidal compositions containing (a) metolachlor or a stereoisomer thereof, (b) fomesafen or an agriculturally acceptable salt thereof, and (c) saflufenacil are also disclosed.

Herbicidal compositions containing (a) an amide herbicide selected from flufenacet, dimethenamid or a stereoisomer thereof, acetochlor, or metolachlor or a stereoisomer thereof, (b) fomesafen or an agriculturally acceptable salt thereof, and (c) saflufenacil are disclosed, wherein components (a), (b) and (c) are present in amounts effective to reduce the phytotoxicity of the saflufenacil. Methods of making and using herbicidal compositions containing (a) metolachlor or a stereoisomer thereof, (b) fomesafen or an agriculturally acceptable salt thereof, and (c) saflufenacil are also disclosed.

A continuous process for preparing microcapsules containing water-insoluble active principles, comprising: (1) preparing, in a first reactor, an aqueous solution containing one or more surfactants, (2) preparing, in a second reactor, a solution comprising at least an active principle immiscible in an aqueous phase and a first component for preparing a polycondensation polymer for forming the microcapsule shell, simultaneously feeding to a tubular reactor of a stream of aqueous solution (1) and solution (2), the ratio of solution (2)/solution (1) being between 0.5 and 2.0, inletting a stream (3) of a second component for preparing the polycondensation polymer into the reactor, wherein stream (3) reacts with the first component, wherein the streams are under turbulent flow conditions in the tubular reactor, and are continuously fed to the tubular reactor, and wherein the ratio between the equivalents of the first component and second component are between 0.9 and 1.1.