When you move to a new house or change the wallpaper or flooring of your home or office, you can enjoy the joy of building a new home with the syndrome of new house syndrome. It s only a moment. Volatile organic compounds from building materials, adhesives, wallpaper and paints used in new buildings and new furniture can cause residents health and discomfort in indoor living. These volatile organic compounds include formaldehyde, benzene, toluene, acetone, styrene, etc., and these substances are released slowly over a long period of time, causing acute or chronic disease inhabitants. As a method of removing organic volatiles, a physical method using adsorption, a chemical method of converting a volatile material to another material, or a mixture of the two are mainly used. In order to remove VOCs by adsorption, solids such as zeolite, silica, bentonite, loess, and starch with high adhesion are mainly used, including activated carbon. In order to cause chemical changes with these adsorbents, a photocatalyst based on titanium dioxide solution is used, or a platinum catalyst is used to remove them. Powders of aluminum and calcium-containing materials are replaced with zinc, copper, iron, and silver ions. A method of adding a substance obtained by the reaction with the substance to the adsorbent and the like have been reported. However, this method requires a light source such as ultraviolet light to remove materials such as formaldehyde, and its role is limited in the form of a dark room, and the manufacturing method is a complicated process, that is, a high temperature reaction temperature, filtration, drying, grinding, etc. Has the disadvantage of being manufactured through. In addition, there is a method of removing formaldehyde by using a material obtained by the reaction of organic acids and ammonia at 100-150 ℃. as a substance used for chemical removal of formaldehyde or by liberating hydrogen peroxide by decomposition of sodium percarbonate. The methods also require high temperatures in the manufacturing process, and the removal efficiency of formaldehyde is enhanced by the glass process of hydrogen peroxide being sensitive to temperature and humidity. In this paper, a mixture of sustained-release chlorine dioxide gel packs and zeolite adsorbents with optimized hole diameters is adsorbed and decomposed to remove and decompose formaldehyde suspended in the air. I would suggest an effective method.