A hygienic odor reducing agent in sanitary areas is provided which comprises chlorine, caustic soda, soda ash, chloroform and tide scent. The instant application also discloses an agent comprises 0.5 kilograms of chlorine in powder form and constituting 65% of the solution. In one embodiment, the invention discloses a hygienic odor reducing agent, characterized in that it comprises 0.25 kilograms of caustic soda in powder form, 0.25 kilograms of soda ash, 1 ml of chloroform and 5 ml of tide scent. Further disclosed is a process of preparing the hygienic odor reducing agent in sanitary areas which comprises the steps of pouring 10 liters of water in a container, adding 0.5 kilograms of chlorine, adding 0.25 kilograms of caustic soda, adding 0.25 kilograms of soda ash, adding 1 ml of chloroform, adding 5 ml of tide scent and stirring the whole mixture daily for 3 days.

An aqueous fabric spray composition, comprising: a. 0.0001-10 wt. % free perfume. b. 0.001 to 2 wt. % quaternary ammonium biocide.

A warming cabinet can include an enclosure, a heater for heating the enclosure, and a package disposed within the enclosure. A method of disinfecting skin can include removing a package from a storage environment having an above-ambient temperature, removing a wipe from the package, and applying the wipe to skin.

To provide a toilet roll having a deodorizing function. The problem is solved by a toilet roll in which a volatile deodorizing fragrant agent that is vaporized to emit fragrance and chemically deodorizes a malodorous component is applied to an outer periphery of a paper tube, and a deodorizing region to which a deodorant that chemically deodorizes a malodorous component is applied for deodorizing a malodorous component by contact with the malodorous component is provided on an inner periphery of the paper tube.

Aqueous compositions of one or more organoethoxysilanes dissolved in an aqueous solution with one or more alcohols, polyvinyl alcohol and one or more optional fragrances, which can present or eliminate malodor aroma from microogranisms, methods of preparing the mal-odor removing compositions, and/or methods of using the mal-odor removing compositions. The mal-odor removing aqueous compositions preferably being in an liquid form that leaves is capable of providing clear, dried coating or film upon applied surfaces that removes odors and prevents proliferation of odor causing bacteria, fungi and viruses.

A gas evacuation device for filtering a gas is provided. The gas evacuation device comprises a gas channel including a gas-channel inlet and a gas-channel outlet, a gas detection main body disposed in the gas channel near the gas-channel inlet for detecting the gas introduced through the gas-channel inlet and generating detection data, a gas guider for guiding the gas, and a driving controller for controlling enablement and disablement of the gas detection main body and the gas guider.

Methods of forming an antiviral facial mask that is capable of not only filtering pathogen particles, but also deactivating pathogen particles prior to exposure by the wearer. Typical facial masks do not deactivate pathogen particles, but rather merely capture viral particles on an outer surface of the mask. As such, the masks present a risk of interaction between the mask wearer and the particles, such as during the removal and/or application of the masks. Methods of forming enhanced antiviral facial masks include the formation of fibers via electrospinning, such that the fibers include a solution of two oppositely charged polyelectrolytes, surfactants, and metal ions. In use, water from human breath activates the surfactants to capture and deactivate pathogen particles. Moreover, the strength of the fibers from the oppositely charged polyelectrolytes results in increased lifespans of the masks, as the masks do not breakdown in the presence of high humidity.

A natural antimicrobial substance produced by applying electrical stimulation to a nano-sized Foeniculum vulgare extract and a nano-sized Polygonum tinctorium extract, and an antimicrobial composition produced by adding a sugar alcohol to the natural antimicrobial substance. The antimicrobial composition has advantages in that it is safe for human cell membranes and, at the same time, exhibits maximized antimicrobial efficacy by disrupting the cell membrane structure of bacteria.

Method that allows surfaces in interior spaces or technical equipments to be cleaned, characterised in that it comprises at least the following step: —the targeted atomization on the surfaces of a liquid with spores of benign bacteria on all or certain types of surfaces by means of an electrically and/or pneumatically powered atomizer, while the space remains accessible to people and animals, with the purpose of speeding up the cleaning of interior spaces and of technical equipments, lowering the cleaning frequency, and lowering the dust deposit.

The disclosed technology provides thermoplastic polyurethane compositions having antimicrobial properties while still maintaining good physical properties and good non-fouling properties, methods of making the same, and articles, including medical devices, made from such compositions. The disclosed technology includes a process of making an antimicrobial polymer composition, where the process includes mixing an antimicrobial additive into a base polymer and further includes mixing in a non-fouling additive, where the antimicrobial additive is chemically held in the composition and the antimicrobial and non-fouling additives do not negatively impact each other's effectiveness.