The present specification discloses honeybee repellents exhibiting repellent properties similar to 2-heptanone, compositions comprising such repellents, uses to repel a honeybee from a mammal, location, plant, structure treated of such repellents, and methods of treating a mammal, location, plant, structure by applying such repellents.

The present specification discloses honeybee repellents exhibiting repellent properties similar to 2-heptanone, compositions comprising such repellents, uses to repel a honeybee from a mammal, location, plant, structure treated of such repellents, and methods of treating a mammal, location, plant, structure by applying such repellents.

Compositions comprising at least one hydrophobic, at least partially water-insoluble polyglycerol ester in combination with at least one emulsifier, and the use thereof.

Compositions comprising at least one hydrophobic, at least partially water-insoluble polyglycerol ester in combination with at least one emulsifier, and the use thereof.

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.

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.

Herein, the synthesis of N,Ndiallyl morpholinium monomers and polymerization of the same to form rings at high yield and purity are explained. The process involves the synthesis of N,Ndiallyl morpholinium bromide and chloride and subsequently partially or completely exchanging their anions with borate, p-toluenesulfonate, oleate, and acetate anions. The cyclopolimerization of monomers yields water soluble polymers carrying quaternary ammonium groups in each repeated unit, whose aqueous solutions act as a bactericide solution. These solutions are advantageous in preparation of antibacterial formulations intended for domestic use. The polymer with bromide and borate anions is an efficient antibacterial which is able to kill “Pseudomonas Aeruginosa”, the hardest hospital bacterium to cope with, as well as various common bacteria. These formulations are suitable for producing bactericide wet wipes and forming abacterial surfaces and, when combined with air conditioners, generating bacteria free air.

Herein, the synthesis of N,Ndiallyl morpholinium monomers and polymerization of the same to form rings at high yield and purity are explained. The process involves the synthesis of N,Ndiallyl morpholinium bromide and chloride and subsequently partially or completely exchanging their anions with borate, p-toluenesulfonate, oleate, and acetate anions. The cyclopolimerization of monomers yields water soluble polymers carrying quaternary ammonium groups in each repeated unit, whose aqueous solutions act as a bactericide solution. These solutions are advantageous in preparation of antibacterial formulations intended for domestic use. The polymer with bromide and borate anions is an efficient antibacterial which is able to kill “Pseudomonas Aeruginosa”, the hardest hospital bacterium to cope with, as well as various common bacteria. These formulations are suitable for producing bactericide wet wipes and forming abacterial surfaces and, when combined with air conditioners, generating bacteria free air.

The present application provides an application of quercetin in a plant senescence accelerator, which belongs to the field of plant senescence accelerators and its application, and can prepare a plant senescence accelerator by using quercetin and apply the accelerator in practical production to accelerate the senescence process of plant particularly crop leaves. The quercetin plant senescence accelerator is prepared by mixing a quercetin mother solution with a 1/2 MS solution of 2-(N-morpholino)ethanesulfonic. In the present application, by adopting directly spraying method, the senescence process of plant leaves can be accelerated, and will not cause additional adverse reactions to plants.