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Water
Purified Water
Provides a liquid base for a product.
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Tetrasodium Iminodisuccinate
Chelator
Tetrasodium iminodisuccinate is a chelator that can also be found in laundry detergents, hand soaps and dishwashing detergents. The word chelator (pronounced "key-lay-tor") comes from the Greek word chele, or claw. Think of a chelator as a tiny claw that reaches out and grabs the minerals in soap scum or soils, to keep them from depositing on a surface. We use tetrasodium iminodisuccinate in products to remove soap scum and mineral deposits. By binding to the soap scum or deposit, it allows them to be rinsed away.
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Isobutane
Propellant
Isobutane is a propellant used to dispense a product from a container. It is often used in concert with other propellants such as butane and propane. While isobutane is commonly known for its use as a fuel, for example for camp stoves, in use as a propellant its energy comes from being compressed in a can rather than from being lit or heated.
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Ethoxylated Alcohol
Emulsifier
Ethoxylated Alcohol is a cleaning agent, or "surfactant," that can also be found in household cleaning products like all-purpose cleaners and automobile cleaning products. We use it in our products to remove dirt and deposits by surrounding dirt particles to loosen them from the surface they are attached to, so they can be rinsed away. Ethoxylated alcohol can also be used as an emulisifier. It helps bind ingredients together and keep a formula from separating. Over time, it is possible for formulas in a product to separate. We add emulsifiers to our products where needed to ensure that our products provide the same performance use after use.
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Quaternary Ammonium Compounds
Active Ingredient
Quaternary Ammonium Compounds are an Active Ingredient. An Active Ingredient controls a specific pest or microorganism in a registered product, such as in an insecticide, antimicrobial or repellent product.
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Fragrance
Fragrance
2,6-dimethyl-7-octen-2-ol; butylphenyl methylpropional*; citrus aurantium dulcis (orange) peel oil*; dipropylene glycol; hexamethylindanopyran*; hexyl cinnamal*; methyl Ionones; methyldihydrojasmonate; tetramethyl acetyloctahydronaphthalenes*; tricyclo(5.2.1.02,6)dec-4-en-8-yl acetate
*Item on SC Johnson’s list of skin allergens,
learn more
For additional detail about our fragrance ingredients, click here.
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Sodium Hydroxide
pH Adjuster
Sodium hydroxide is a builder that can also be found in detergents and degreasers. We use it to make a product formula clean better by affecting the molecules in the formula so they work together better. Sodium hydroxide can also be a pH adjuster that alters the pH of a product to improve stability. Every formula has an optimum pH to make it work best. For example, a formula that’s more acidic works better for soap scum removal. Its opposite, a formula that’s more alkaline, might be more effective at removing grease or greasy soils. We use pH adjusters to make sure we achieve the best pH for a particular job. Also, the pH of a formula can affect how long it lasts within a container – for example limiting its tendency to corrode a can, container or dispenser. In high concentrations (such as in drain cleaners), sodium hydroxide can also be used as a caustic that helps dissolve organic matter like drain clogs.
Directions for Use:
It is a violation of federal law to use this product in a manner inconsistent with labeling.
SHAKE WELL BEFORE AND DURING USE.
To Clean: Spray 6-8 inches from surface to be cleaned. Allow foam to penetrate. For heavily soiled areas, reapplication may be needed. Remove by wiping away foam with a cloth or sponge. On chrome, rinse with water.
To Disinfect and Deodorize: Pre-clean visibly soiled areas. Spray 6-8 inches from hard, non-porous surfaces until thoroughly wet. Let stand 5 minutes. Wipe with a wet cloth or sponge. Rinse food contact surfaces with potable water.
Do not apply this product around electrical equipment due to the possibility of shock hazard.
The scientific and regulatory communities have adopted a hierarchy that ranks viruses, from harder to kill on surfaces (high on the hierarchy) to easier to kill on surfaces (low on the hierarchy). If a disinfectant kills a virus higher on this scale, experts have demonstrated it will kill a virus lower on the scale. When used as directed, this product has efficacy against a virus higher on the scale than SARS-CoV-2. Based on this hierarchy, we believe that they will be effective against SARS-CoV-2.
Learn more here.