Compositions comprising one or more chelating agents and optionally zinc ion salts are used to inhibit the growth or biofilm formation in bacteria associated with personal care products such as ophthalmic, pedicure, manicure or podiatric solutions. The compositions of the present application can also comprise gelling agents, antimicrobials, antibiotic or a pH adjuster. The compositions may be in the form of a solution, a gel, a cream, a jelly, a powder, a paste, a lotion, soap and a cleaner.

Compositions comprising one or more chelating agents and optionally zinc ion salts are used to inhibit the growth or biofilm formation in bacteria associated with personal care products such as ophthalmic, pedicure, manicure or podiatric solutions. The compositions of the present application can also comprise gelling agents, antimicrobials, antibiotic or a pH adjuster. The compositions may be in the form of a solution, a gel, a cream, a jelly, a powder, a paste, a lotion, soap and a cleaner.

A process for obtaining compositions constituted by propolis nanoparticles is disclosed. The nanoparticles are optionally associated to a substance of interest such as active ingredients, and, optionally, substances of secondary effect such as synergists and adjuvants. The process includes preparing a fraction A, which consists of propolis extract dissolved in an organic solvent, to which stabilizer and/or emulsifier may be added, and, optionally, substances of interest and/or of secondary effect; ii) preparing a fraction B, aqueous phase, constituted by: (ii.1) water; or (ii.2) an aqueous solution or dispersion, to which stabilizer and/or emulsifier may be added; (iii) dropping the fraction A onto the fraction B or vice versa; iv) homogenizing the mixture by stirring and spontaneous formation of nanoparticles with average size from 1 to 1000 nm in a dispersion; and v) optionally (v-1) removing organic solvent and/or (v-2) drying the nanodispersion.

A process for obtaining compositions constituted by propolis nanoparticles is disclosed. The nanoparticles are optionally associated to a substance of interest such as active ingredients, and, optionally, substances of secondary effect such as synergists and adjuvants. The process includes preparing a fraction A, which consists of propolis extract dissolved in an organic solvent, to which stabilizer and/or emulsifier may be added, and, optionally, substances of interest and/or of secondary effect; ii) preparing a fraction B, aqueous phase, constituted by: (ii.1) water; or (ii.2) an aqueous solution or dispersion, to which stabilizer and/or emulsifier may be added; (iii) dropping the fraction A onto the fraction B or vice versa; iv) homogenizing the mixture by stirring and spontaneous formation of nanoparticles with average size from 1 to 1000 nm in a dispersion; and v) optionally (v-1) removing organic solvent and/or (v-2) drying the nanodispersion.

Compositions and method of delivering a molecule to a plant are provided. In an embodiment, an avenic acid transporter is introduced into a plant. The plant may be a non-graminacious or dicotyledonous plant which does not comprise the transporter in the wild type form. The transporter may be modified to increase uptake of avenic acid along with iron chelated by the avenic acid and/or a molecule conjugated with the avenic acid. Further embodiments provide for conjugating the avenic acid with a molecule for uptake and delivery to the plant. In this manner plant health may be improved by uptake of iron where it would otherwise not occur and/or uptake of the conjugated molecule. The molecule may be a molecule that improves health of the plant. Still further embodiments provide for analogs of avenic acid. Embodiments provide for interplanting Avena sativa which natively produces avenic acid with another plant. Additional embodiments provide for time release of avenic acid provided to a plant.

An antimicrobial medical dressing provides a combination of antimicrobial agents in various concentrations that protect against microorganisms, absorb exudates, and promote healing. The antimicrobial agents may include compositions of ethanol, hydrogen peroxide, and/or ethylenediaminetetraacetic acid.

An antimicrobial medical dressing provides a combination of antimicrobial agents in various concentrations that protect against microorganisms, absorb exudates, and promote healing. The antimicrobial agents may include compositions of ethanol, hydrogen peroxide, and/or ethylenediaminetetraacetic acid.

This disclosure relates to picolinamides of Formula I and their use as fungicides.

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This disclosure relates to picolinamides of Formula I and their use as fungicides.

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This disclosure features herbicidal compositions including one or more indole auxins and methods of making and using the same.