The present disclosure relates to compositions including a fatty acid soap/fatty acid mixture, and methods of use thereof. The compositions include a C5 to C12 fatty acid or mixtures thereof. The compositions show increased activity, e.g., insecticidal, soil removal, antimicrobial activity, at a controlled pH range of about 7.5 to about 9.0.

The present disclosure relates to compositions including a fatty acid soap/fatty acid mixture, and methods of use thereof. The compositions include a C5 to C12 fatty acid or mixtures thereof. The compositions show increased activity, e.g., insecticidal, soil removal, antimicrobial activity, at a controlled pH range of about 7.5 to about 9.0.

The antimicrobial coating material for surface coating is formed from encapsulated biocides. The biocides include at least one antimicrobial component. The biocides are encapsulated in inorganic-organic shells which are permeable to the biocides. The organic materials may include at least one nonionic polymer. The inorganic-organic shells encapsulate and contain the biocides to form capsule structures for storage and release of the biocides. The capsule structures may be single capsules or capsule-in-capsule structures. The inorganic materials may be present in a concentration of 0.5-95 wt % of the inorganic-organic shells. Alternatively, the inorganic materials may be present in a concentration of 5-60 wt %. The inorganic materials and the organic materials are each intermixed, with respect to one another, in structures of the inorganic-organic shells. These structures may be an attachment structure, a hybrid structure or a multi-layered structure.

The antimicrobial coating material for surface coating is formed from encapsulated biocides. The biocides include at least one antimicrobial component. The biocides are encapsulated in inorganic-organic shells which are permeable to the biocides. The organic materials may include at least one nonionic polymer. The inorganic-organic shells encapsulate and contain the biocides to form capsule structures for storage and release of the biocides. The capsule structures may be single capsules or capsule-in-capsule structures. The inorganic materials may be present in a concentration of 0.5-95 wt % of the inorganic-organic shells. Alternatively, the inorganic materials may be present in a concentration of 5-60 wt %. The inorganic materials and the organic materials are each intermixed, with respect to one another, in structures of the inorganic-organic shells. These structures may be an attachment structure, a hybrid structure or a multi-layered structure.

The antimicrobial coating material for surface coating is formed from encapsulated biocides. The biocides include at least one antimicrobial component. The biocides are encapsulated in inorganic-organic shells which are permeable to the biocides. The organic materials may include at least one nonionic polymer. The inorganic-organic shells encapsulate and contain the biocides to form capsule structures for storage and release of the biocides. The capsule structures may be single capsules or capsule-in-capsule structures. The inorganic materials may be present in a concentration of 0.5-95 wt % of the inorganic-organic shells. Alternatively, the inorganic materials may be present in a concentration of 5-60 wt %. The inorganic materials and the organic materials are each intermixed, with respect to one another, in structures of the inorganic-organic shells. These structures may be an attachment structure, a hybrid structure or a multi-layered structure.

An antimicrobial composition comprising extracts from a plurality of plants is provided. The plants are selected from the group consisting of woody plants; succulent plants; and/or grasses. The plurality of plants may include each of a woody plant; a succulent plant; and a grass. Also provided is a method of manufacturing an antimicrobial composition, the method including the step of combining extracts from a plurality of plants selected from the group consisting of woody plants, succulent plants, and/or grasses. A method of controlling a microorganism including the step of contacting the microorganism with the antimicrobial composition is further provided. The microorganism may be located within an air conditioning system.

An antimicrobial composition comprising extracts from a plurality of plants is provided. The plants are selected from the group consisting of woody plants; succulent plants; and/or grasses. The plurality of plants may include each of a woody plant; a succulent plant; and a grass. Also provided is a method of manufacturing an antimicrobial composition, the method including the step of combining extracts from a plurality of plants selected from the group consisting of woody plants, succulent plants, and/or grasses. A method of controlling a microorganism including the step of contacting the microorganism with the antimicrobial composition is further provided. The microorganism may be located within an air conditioning system.

A liposome composition having a lipid bilayer membrane, made of a crude or de-oiled lecithin, at least one triglyceride, a non-triglyceride active agent, and conditioned water. The liposome composition may be utilized for purposes and treatments including increased plant growth, insecticide or insect repellant, inhibiting fruit decay, forensic labeling of plants, wound treatment, and cosmetic applications.

A liposome composition having a lipid bilayer membrane, made of a crude or de-oiled lecithin, at least one triglyceride, a non-triglyceride active agent, and conditioned water. The liposome composition may be utilized for purposes and treatments including increased plant growth, insecticide or insect repellant, inhibiting fruit decay, forensic labeling of plants, wound treatment, and cosmetic applications.

A liposome composition having a lipid bilayer membrane, made of a crude or de-oiled lecithin, at least one triglyceride, a non-triglyceride active agent, and conditioned water. The liposome composition may be utilized for purposes and treatments including increased plant growth, insecticide or insect repellant, inhibiting fruit decay, forensic labeling of plants, wound treatment, and cosmetic applications.