IMC water catalyst is a high-tech leading technology developed by Japanese expert Dr. Oki Miyamoto and has obtained a world patent. It can decompose VOCs* in the air, has excellent functions such as antibacterial and antifungal effects, and has the characteristics of versatility. It also allows the IMC water catalyst to be used in different areas and create a continuous antibacterial protective cover for different places, creating a high-quality and healthy living environment. The following are the four characteristics of IMC water catalyst :
The IMC water catalyst can adhere to the fiber pores of the object without being eluted, and can form a 5H-6H hard film on the surface of the object. It has been tested by JIS (Japanese Industrial Standard) 5000 times and has extremely high durability. Grind.
The IMC water catalyst will decompose VOCs into water and carbon dioxide, and will not produce any harmful substances during the conversion process to cause secondary pollution.
In addition to decomposing VOCs volatile organic compounds, it can also decompose anti-bacterial, anti-virus, anti-algae, anti-mold and decompose the smell of Amonia.
Only contact with water (H2O) in the air can produce a catalytic effect, which can ensure long-term operation, maximize VOCs decomposition effect and continue antibacterial.
*TVOCs are total volatile organic compounds, a total of more than 400, of which more than 20 are cancer chemicals. The molecular formulas of carcinogenic chemicals have three elements: C (carbon), H (hydrogen), and O (oxygen), such as formaldehyde CH 2 O, toluene C 7 H 8 , acetaldehyde CH 3 CHO, and benzene C 6 H 6 .
"IMC water catalyst" is far more versatile and convenient than photocatalyst at the application level. It does not need to rely on a light source as a medium, can operate 24 hours a day, and is non-toxic, and will not cause secondary pollution and cause adverse effects on people.
Although IMC water catalyst has a wide range of applications and superior performance, it should be noted that any catalyst in the world also has its limitations. After all, catalysts are not "fairy water". The following are three restrictions that all catalysts cannot achieve. :
1.No unlimited and complete decomposition
In reality no catalyst, of whatsoever kind, can unlimitedly and completely decompose VOC and get rid of the smell within a day or two, just as the case where no nuclear bomb can be exploded unlimitedly and infinitely.
2.Cannot decompose all the smell
Basically the water catalyst can decomposes all chemical structures that contain C (carbon), H (hydrogen), O (oxygen) elements, thereby it eliminates odor such as formaldehyde, ammonia and cigarettes etc. And it not only has a long-lasting antimicrobial efficacy, but also can prevent the generation of bacteria. With its sterility, how can the bacteria cause the smell? But if the odor of material structure does not contain C, H and O, that is, it only has smell due to own material structure, then this smell cannot be decomposed by water catalyst.
3.No penetration and penetration ability
All catalysts and ozone have no penetrating or penetrating ability, so the catalyst can only decompose VOCs and formaldehyde on the surface of the object and produce antibacterial effect, but cannot penetrate the wall or the deep layer of the furniture to decompose. Remember, only "radiation" has the ability to penetrate.