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.

There is described a system for analyzing an air condition. The system comprises a detection unit configured for detecting of detection signals indicative of a bacteria-related contamination of an evaporator and/or an air filter of the air condition, an analyzing unit configured for analyzing of a level of contamination of the evaporator and/or the air filter based on the detection signals, and an output unit configured for outputting the analyzed level of contamination of the evaporator and/or the air filter to a user.

Disclosed is technology to solve the problem in a world that is inundated with microbes of keeping food fresher for longer and shelf-life extension to enhance food security and safety without refrigeration/freezing, chemical preservatives integrated into the food product and/or physically/chemically altering the food product. Aspects of the technology are directed at the three levels of the food delivery system; namely, supermarket style display ware, bulk packaging and overseas container. This technological problem is solved by situating on food contacting/abutting surfaces of display ware, bulk packaging and oversees containers an antimicrobe agent formulated as a composition comprised of (i) between about 0.25% (w/w) to about 0.75% (w/w) benzalkonium chloride; (ii) between about 0.02% (w/w) to about 1.00% (w/w) of a kill agent selected from the group consisting of hydrogen peroxide and phenoxyethanol; (iii) between about 0.25% (w/w) to about 0.75% (w/w) 3-(tri-methoxysilyl)propyldimethyl octadecyl ammonium chloride and (iv) between about 97.50% (w/w) to about 99.48% deionized water.

A disinfecting assembly that enables large mobile objects (e.g., grocery carts, shopping carts, carry out carts, wheelchairs, mobility scooters, etcetera) to be disinfected in a simple and effective manner, including: (1) a ground-engaging frame sub-assembly; (2) an energy source; (3) a reservoir, wherein the reservoir contains disinfecting fluid; (4) an output spray nozzle, wherein the output spray nozzle is associated with ground-engaging frame sub-assembly; (5) a fluid displacement pump; (6) a first conduit, wherein the first conduit is associated with the reservoir and the fluid displacement pump; (7) a second conduit, wherein the second conduit is associated with the fluid displacement pump and the output spray nozzle; (8) a motion sensor, wherein the motion sensor detects objects moving within the disinfecting assembly; and (9) a control box having a programmable logic controller, wherein the programmable logic controller is in electrical communication with the energy source, the fluid displacement pump; and the motion sensor.

A disinfecting assembly that enables large mobile objects (e.g., grocery carts, shopping carts, carry out carts, wheelchairs, mobility scooters, etcetera) to be disinfected in a simple and effective manner, including: (1) a ground-engaging frame sub-assembly; (2) an energy source; (3) a reservoir, wherein the reservoir contains disinfecting fluid; (4) an output spray nozzle, wherein the output spray nozzle is associated with ground-engaging frame sub-assembly; (5) a fluid displacement pump; (6) a first conduit, wherein the first conduit is associated with the reservoir and the fluid displacement pump; (7) a second conduit, wherein the second conduit is associated with the fluid displacement pump and the output spray nozzle; (8) a motion sensor, wherein the motion sensor detects objects moving within the disinfecting assembly; and (9) a control box having a programmable logic controller, wherein the programmable logic controller is in electrical communication with the energy source, the fluid displacement pump; and the motion sensor.

A portable modular sanitizing compartment is provided that is designed and configured to facilitate rapid sanitizing and drying of clothing articles placed within the compartment. The sanitizing compartment may include, an exterior housing, modular base controller and internal compartment defining an interior space, a plurality of air intake valves, a plurality tubular structure with plurality of apertures connected to hangers within the internal compartment, a plurality of modular UV lights, and a modular base control unit to form a treatment compartment. The use of treated atmospheric air, fragrance or atomized disinfectant instead of ozone to treat the clothing from the inside out through a structure of connected tubes placed within a closed compartment may provide the user with a better use case for users by limiting adverse health effects. The portable dry sanitizing compartment may also be controlled externally through a smart device.

A portable modular sanitizing compartment is provided that is designed and configured to facilitate rapid sanitizing and drying of clothing articles placed within the compartment. The sanitizing compartment may include, an exterior housing, modular base controller and internal compartment defining an interior space, a plurality of air intake valves, a plurality tubular structure with plurality of apertures connected to hangers within the internal compartment, a plurality of modular UV lights, and a modular base control unit to form a treatment compartment. The use of treated atmospheric air, fragrance or atomized disinfectant instead of ozone to treat the clothing from the inside out through a structure of connected tubes placed within a closed compartment may provide the user with a better use case for users by limiting adverse health effects. The portable dry sanitizing compartment may also be controlled externally through a smart device.

This disclosure relates to a method for disinfecting a space. The method includes spraying a composition containing triethylene glycol into a space containing severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in an amount effective to inactivate SARS-CoV-2.

This disclosure relates to a method for disinfecting a space. The method includes spraying a composition containing triethylene glycol into a space containing severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in an amount effective to inactivate SARS-CoV-2.

Antiseptic agent delivery systems and methods are provided, one such system comprising: a reservoir configured to store an antiseptic solution, wherein the antiseptic solution comprises an aqueous solution of hypochlorous acid; an ultrasound generator coupled to the reservoir, wherein the ultrasound generator vaporizes the antiseptic solution into an antiseptic vapor; a nozzle to direct the antiseptic vapor to an affected area; and a housing coupled to the reservoir and the nozzle, wherein the housing comprises a panel to control the ultrasound generator.