Miracle Mist Spray (Hypochlorous acid) 100ml

Miracle Mist Spray (Hypochlorous Acid - HOCl)

Size: 100ml Spritzer – 200ppm

Note: Hypochlorous acid (HOCl) is not the same as Hydrochloric acid (HCl)

Often people are afraid of things that have the name “acid” in them, but don’t fear HOCL once they learn the power of this substance. You’ll never live without it!

HOCL is created by white blood cells as an immune response system against infection, bacteria, viruses, fungi, and spores. It penetrates the cell walls of pathogens, targeting and disrupting their lipid membranes and leads to cell death.

Hypochlorous acid has anti-microbial, anti-viral, anti-bacterial, anti-inflammatory, and cell-repairing properties.

HOCL is eco-friendly and non-toxic.

HOCL is a FDA, EPA, and USDA approved disinfectant.

Topical Uses for Skin Health

HOCL is a game-changer in dermatology and skin care because it:

• Kills acne-causing bacteria (Propionibacterium acnes). 

• Reduces inflammation and redness

• Speeds up wound healing

• Soothes eczema, psoriasis, and rosacea

• Treats burns and surgical wounds

• Effective recovery after Aesthetic treatments, Tattoo procedures, Lesion removal, Chemical peels,          Dermaplaning, Plasma Fibroblast, Laser treatments and Microneedling.

What is the difference between Chlorine dioxide (ClO₂) and Hypochlorous Acid (HOCl)?

1. Oxidation Mechanism:

     Chlorine dioxide oxidizes specific compounds in the oxidation process. It is a free radical, and its oxidation mechanism often involves electron transfer to the target molecule. The key process for ClO₂ is the reduction of the ClO₂ molecule (where ClO₂ˉ is reduced to Clˉ). In the process of an electron donor.                                         

     Oxidation reaction: ClO₂ + eˉ ClOˉ₂

     Hypochlorous acid is more general in its oxidation ability. It can undergo a two-electron oxidation to form chloride ions (Clˉ). HOCl typically releases a chlorine atom or hydroxyl radical during oxidation. It can react with a wide variety of organic and inorganic molecules, often disrupting cellular functions like enzyme inhibition, protein denaturation, and membrane damage.   

     Oxidation reaction: HOClClˉ + O₂ or HOClHCl + O₂ depending on the environment.

2.  Reactivity and Selectivity:

     Chlorine dioxide is a more selective oxidizer compared to hypochlorous acid. It is particularly effective against organic materials, including bacteria, viruses, and other pathogens. It’s less reactive with inorganic compounds compared to HOCl, which makes it useful in the application like water treatment where it can target specific contaminants.

     Hypochlorous acid is a more reactive and broad-spectrum disinfectant, meaning it has a higher tendency to interact with various substances, including both organic and inorganic compounds. It’s often used for general disinfection purposes because of its ability to break down a wide range of materials.

3. Stability:

     Chlorine dioxide is less stable than hypochlorous acid and can decompose rapidly in the presence of light and heat, often releasing oxygen gas in the process. This limits its storage and handling.

     Hypochlorous acid is more stable, especially in acidic conditions, and can be stored in aqueous solutions without immediate degradation and makes it easier to handle.

4. End Products:

     The oxidation products of chlorine dioxide are typically less harmful and less corrosive than those of hypochlorous acid. The main byproducts are chlorine ions (Clˉ) and oxygen.

     Hypochlorous acid generally produces chloride ions (Clˉ) as its primary byproduct, but its higher reactivity can also lead to the formation of chlorinated byproducts, which can be undesirable, particularly in water treatment and disinfection.