A, a method of coating a facial mask is disclosed: providing a container; adding chlorophyll in a range of 1000 mg to 5000 mg into the container; providing organic glycerin to the chlorophyll to form a first mixture; providing salt to the first mixture to form a second mixture; providing a plurality of natural stabilizers to the second mixture to form a third mixture with a certain viscosity based on a facial mask; providing drying agents to the third mixture to form a fourth mixture; providing water to the fourth mixture to form a fifth mixture; providing sodium copper to the fifth mixture to form a sixth mixture; providing isotonic water to the sixth mixture to form a seventh mixture; providing alfalfa to the seventh mixture to form an eighth mixture; providing kosher vegetable glycerin to the eighth mixture to form a ninth mixture; providing the facial mask to be soaked in the ninth mixture for a plurality of hours; drying the facial mask for at least an hour to form a coating on the facial mask; placing the coated facial mask over a face a person wherein the person breathes in Oxygen; and activating the chlorophyll and the organic glycerin when the person breathes out CO2 through the facial mask to prevent a virus from infecting the person.

A, a method of coating a facial mask is disclosed: providing a container; adding chlorophyll in a range of 1000 mg to 5000 mg into the container; providing organic glycerin to the chlorophyll to form a first mixture; providing salt to the first mixture to form a second mixture; providing a plurality of natural stabilizers to the second mixture to form a third mixture with a certain viscosity based on a facial mask; providing drying agents to the third mixture to form a fourth mixture; providing water to the fourth mixture to form a fifth mixture; providing sodium copper to the fifth mixture to form a sixth mixture; providing isotonic water to the sixth mixture to form a seventh mixture; providing alfalfa to the seventh mixture to form an eighth mixture; providing kosher vegetable glycerin to the eighth mixture to form a ninth mixture; providing the facial mask to be soaked in the ninth mixture for a plurality of hours; drying the facial mask for at least an hour to form a coating on the facial mask; placing the coated facial mask over a face a person wherein the person breathes in Oxygen; and activating the chlorophyll and the organic glycerin when the person breathes out CO2 through the facial mask to prevent a virus from infecting the person.

Disclosed are micronutrient chelate compositions and methods that provide nutrients to a plant to improve growth while controlling pathogens, such as Candidatus Liberibacter asiaticus the causal pathogen for citrus greening disease, by improving plant health through the enhancement of beneficial microbial populations resident in the plants phloem. The chelate compositions include a combination of a metal, such as iron, and a derivative of a chelating agent such as EDDHA or HBED. The chelate formulations can either be a dry formulation or liquid formulation that is dispersed in a selected amount of water and applied to the foliage of a plant and/or applied to the soil proximal to the plant rhizosphere.

Disclosed are micronutrient chelate compositions and methods that provide nutrients to a plant to improve growth while controlling pathogens, such as Candidatus Liberibacter asiaticus the causal pathogen for citrus greening disease, by improving plant health through the enhancement of beneficial microbial populations resident in the plants phloem. The chelate compositions include a combination of a metal, such as iron, and a derivative of a chelating agent such as EDDHA or HBED. The chelate formulations can either be a dry formulation or liquid formulation that is dispersed in a selected amount of water and applied to the foliage of a plant and/or applied to the soil proximal to the plant rhizosphere.

The present invention relates to a method of degrading biofilm by contacting it with an aqueous mixture comprising a peroxide compound and a manganese complex, wherein the aqueous mixture comprises a macrocylic ligand. The invention also relates to a method of degrading a biofilm by contacting it with an aqueous mixture comprising a peroxide compound and a macrocyclic ligand.

The present invention relates to a method of degrading biofilm by contacting it with an aqueous mixture comprising a peroxide compound and a manganese complex, wherein the aqueous mixture comprises a macrocylic ligand. The invention also relates to a method of degrading a biofilm by contacting it with an aqueous mixture comprising a peroxide compound and a macrocyclic ligand.

The invention relates to a method for treating a plant wherein an agrochemical composition is applied onto at least one part of said plant, wherein the plant is corn or soy and wherein the agrochemical composition comprises in a liquid medium: particles of at least one inorganic phosphor exhibiting: a maximum in the emission spectrum in the range of wavelengths between 400 nm and 500 nm; an absorption Abs in the visible range which is equal to or less than 15.0%, preferably equal to or less than 10.0%, even more particularly equal to or less than 3.0%; and an internal quantum efficiency (IQE) measured in the range of wavelengths between 300 nm and 410 nm which is equal to or greater than 50.0%, more particularly greater than 75.0%, even more particularly greater than 90.0%;
and optionally at least one biocide.

The invention relates to a method for treating a plant wherein an agrochemical composition is applied onto at least one part of said plant, wherein the plant is corn or soy and wherein the agrochemical composition comprises in a liquid medium: particles of at least one inorganic phosphor exhibiting: a maximum in the emission spectrum in the range of wavelengths between 400 nm and 500 nm; an absorption Abs in the visible range which is equal to or less than 15.0%, preferably equal to or less than 10.0%, even more particularly equal to or less than 3.0%; and an internal quantum efficiency (IQE) measured in the range of wavelengths between 300 nm and 410 nm which is equal to or greater than 50.0%, more particularly greater than 75.0%, even more particularly greater than 90.0%;
and optionally at least one biocide.

The present application relates to compositions comprising 4-chloroindole-3-acetic acid (4Cl-IAA) or an analogue thereof, or a combination of the latter, in the form of a potassium salt, a sodium salt or an amine salt. For example, such compositions can be used used in methods for selectively causing damage or mortality to weed.

The present application relates to compositions comprising 4-chloroindole-3-acetic acid (4Cl-IAA) or an analogue thereof, or a combination of the latter, in the form of a potassium salt, a sodium salt or an amine salt. For example, such compositions can be used used in methods for selectively causing damage or mortality to weed.