A deodorizer for insertion into athletic and other equipment, having an outer housing that is infused with an antimicrobial agent and that has ventilation holes, and containing a moisture absorbing deodorizer within the outer housing. The deodorizer absorbs moisture that allows bacteria to grow and the antimicrobial infused outer housing kills existing bacteria, thereby reducing bacteria and odor.

The invention relates to a household appliance, which comprises at least one catalytically effective substance in a surface, wherein the catalytically effective substance is a polyoxometalate that is comprised in an inner an/or outer surface of the household appliance, provided that the polyoxometalate is comprised at least in an outer surface of the household appliance if the household appliance is a water-bearing household appliance having a container for receiving objects to be cleaned. The invention further relates to a method for operating the household appliance.

The invention relates to a household appliance, which comprises at least one catalytically effective substance in a surface, wherein the catalytically effective substance is a polyoxometalate that is comprised in an inner an/or outer surface of the household appliance, provided that the polyoxometalate is comprised at least in an outer surface of the household appliance if the household appliance is a water-bearing household appliance having a container for receiving objects to be cleaned. The invention further relates to a method for operating the household appliance.

A nasal insert including an antimicrobial agent is inserted into the nose to eliminate or reduce undesirable microbes in the area just inside the nose. Pads of the nasal insert can be formed from a blended polymer compound with a microbial agent. Processing of the pre-polymer results in the microbial agent being trapped in the polymer. A blowing agent or CO.sub.2 gas can be introduced in the process after decompression, and before molding to improve attraction of liquid born microbes to the nasal insert.

A nasal insert including an antimicrobial agent is inserted into the nose to eliminate or reduce undesirable microbes in the area just inside the nose. Pads of the nasal insert can be formed from a blended polymer compound with a microbial agent. Processing of the pre-polymer results in the microbial agent being trapped in the polymer. A blowing agent or CO.sub.2 gas can be introduced in the process after decompression, and before molding to improve attraction of liquid born microbes to the nasal insert.

A water treatment dispensing apparatus has a container for holding water from a water supply and a water disinfectant cartridge located within the container. A housing attached to the container and connected to the cartridge directs water from the cartridge to a remote location, such as a dental instrument. An air pressure device supplies water under pressure to the container to force water to flow through the cartridge and to the remote location.

An apparatus includes a substrate having a surface and a transparent photocatalyst coating secured on the surface of the substrate, wherein the transparent photocatalyst coating includes titanium oxide and a component selected from a fluorescent dye, ultra-fine glitter, indium tin oxide, aluminum zinc oxide, silver nitrate, and combinations thereof. The substrate is preferably selected from an appliance handle, doorknob, switch, keyboard, countertop, appliance handle, equipment button, touchscreen, handrail, light emitting device, and light cover. Such substrates are frequently touched by one or more users and may become contaminated. However, the transparent photocatalyst coating may be self-decontaminating.

[Problem] To provide a new technology with which it is possible to further increase a supply amount of divalent iron. [Solution] Provided is a divalent iron supply agent that contains: a hydrothermal reaction treatment product of a mixture containing at least one of yeast, a yeast extract, and a yeast cell wall, at least one of phosphoric acid and a phosphoric acid compound, and at least one of potassium and a potassium compound; and an iron supply raw material.

[Problem] To provide a new technology with which it is possible to further increase a supply amount of divalent iron. [Solution] Provided is a divalent iron supply agent that contains: a hydrothermal reaction treatment product of a mixture containing at least one of yeast, a yeast extract, and a yeast cell wall, at least one of phosphoric acid and a phosphoric acid compound, and at least one of potassium and a potassium compound; and an iron supply raw material.

Disclosed is method for plating a PVD (physical vapor deposition) germ killing film, employing a vacuum magnetron sputtering technology and using a nano-silver-containing target for uniformly distributing nano-silver to form a germ killing film. The method can achieve the aim of full germ killing. Besides, nano-silver is enveloped in the sputtering target to form the film, so the target material target can play the role of protecting the nano-silver. Target material can be Al, Cr, stainless steel and Cu. Therefore, the nano-silver is protected; wear resistance of the germ killing film is increased; and the germ killing film can continuously kills germs for a long time.