A method for treating a perishable product is provided, the method comprising: determining a desired product treatment outcome selected from sanitization, protection, preservation, or enhancement of the perishable product; after harvesting, wet or dry washing the perishable product; directly or indirectly applying a substance to the surface of the perishable product using a carrier; and packaging the perishable product. A system for treating a perishable product with a substance treatment is provided, the system comprising: one or more devices for directed substance application to a surface of the perishable products prior to final packaging of the perishable product using a carrier; and wherein the one or more devices is an electrostatically charging device or a nebulizer. Embodiments of the invention which use multiple, sequenced, and engineered applications enhance the efficacy of sanitizers and other functional substances for increasing the quality, safety, and overall shelf life of perishable products.

A method for treating a perishable product is provided, the method comprising: determining a desired product treatment outcome selected from sanitization, protection, preservation, or enhancement of the perishable product; after harvesting, wet or dry washing the perishable product; directly or indirectly applying a substance to the surface of the perishable product using a carrier; and packaging the perishable product. A system for treating a perishable product with a substance treatment is provided, the system comprising: one or more devices for directed substance application to a surface of the perishable products prior to final packaging of the perishable product using a carrier; and wherein the one or more devices is an electrostatically charging device or a nebulizer. Embodiments of the invention which use multiple, sequenced, and engineered applications enhance the efficacy of sanitizers and other functional substances for increasing the quality, safety, and overall shelf life of perishable products.

Disclosed herein are a microorganism growth inhibitor including allulose-containing saccharides and a fermented alcoholic beverage comprising the same.

Suggested is a composition with stabilized taste and/or odor, comprising (a) at least one acetophenone derivative of formula (I) wherein R.sub.1 stands for hydrogen or methyl, and R.sub.2 stands for hydrogen, hydroxyl or a —OCH.sub.3 group, or a cosmetically pharmaceutically acceptable salt thereof, and (b) at least one mono- or polyunsaturated C.sub.8-C.sub.22 fatty acid or its monohydric polyhydric C.sub.1-C.sub.18 alkyl alcohols ester. ##STR00001##

What is disclosed is a method of reducing undesirable concentrations of microorganisms without the use of man-made antibiotics, comprising the steps of: introducing a quantity of fermentable carbohydrate; sugar or cellulose to an aqueous system; introducing a quantity of desirable microorganism to the aqueous system; introducing at least one acid into the aqueous system, wherein the at least one acid is selected from the group consisting of hops acid, organic acid, or a combination of hops acid and organic acid; and introducing a compound comprised of Lauryl-L-arginine ethyl ester monohydrochloride (LAE) into the aqueous system. The use of LAE as a preservative of distiller's grains and solubles is also disclosed.

The present invention relates to a method for forming a protective coating on a plant tissue following the consecutives steps of: (a) providing a plant having an external surface, wherein a portion of the external surface includes an exposed surface; (b) applying a first aqueous solution that contains a crosslinking agent to the external surface of the plant; and (c) applying to the external surface of the plant a second aqueous solution that contains a polysaccharide which is susceptible to crosslinking by the crosslinking agent, thereby forming a protective coating on the exposed surface of the plant. Further provided is a postharvest plant matter that includes a first segment covered by natural skin, and a second segment having an exposed surface that is coated by a protective coating that contains a polysaccharide with the first segment being essentially free of the protective coating.

Various embodiments of the present invention relate to, among other things, systems for generating engineered water nanostructures (EWNS) comprising reactive oxygen species (ROS) and methods for inactivating at least one of viruses, bacteria, bacterial spores, and fungi in or on a wound of a subject in need thereof or on produce by applying EWNS to the wound or to the produce.

Various embodiments of the present invention relate to, among other things, systems for generating engineered water nanostructures (EWNS) comprising reactive oxygen species (ROS) and methods for inactivating at least one of viruses, bacteria, bacterial spores, and fungi in or on a wound of a subject in need thereof or on produce by applying EWNS to the wound or to the produce.

Various embodiments of the present invention relate to, among other things, systems for generating engineered water nanostructures (EWNS) comprising reactive oxygen species (ROS) and methods for inactivating at least one of viruses, bacteria, bacterial spores, and fungi in or on a wound of a subject in need thereof or on produce by applying EWNS to the wound or to the produce.

Various embodiments of the present invention relate to, among other things, systems for generating engineered water nanostructures (EWNS) comprising reactive oxygen species (ROS) and methods for inactivating at least one of viruses, bacteria, bacterial spores, and fungi in or on a wound of a subject in need thereof or on produce by applying EWNS to the wound or to the produce.