About photo-catalyst

The mechanism of the photo-catalyst is that light energy is converted in titanium oxide particles to generate hydrocyrades (OH-) from superoxide (O) on the surface of O2 particles in the air and H2O in water. This causes oxidative decomposition and inactivation of all types of microbiota such as mold and bacteria, viruses, and ammonia and VOCs that cause odors. On the surfaces of nanozone COAT, the super nano
titanium oxide of nanozone SOLUTION absorbs the sunlight, fluorescent lights, LEDs, and other. And generates a strong photo-catalysts activation. Once coated, the effect will last long. 

Differences between nanozone SOLUTION and Other Products

No Chemical Binder
Titanium oxide particles are “self-bonded

nanozone SOLUTION : Advantages of “self-bonded”

Other Titanium Oxide

Particles is NOT capable of self-bonded on surfaces
Binder Required
When binder glue comes off, it also
Peeled Off Particles
Because particles are buried in the binder
Required Strong Sunlight

nanozone SOLUTION’s Titanium Oxide

When the water evaporates after coating, the titanium oxide particles form strong bonds each other to any kind of surfaces for a long period of time
Particles is capable of self-bonded on surfaces
No Binder Required
No binder glued on surfaces
No Peel Off
No binder gluing and exposed particles
Activated all titanium oxide particles with a small amount of visible light

Titanium Oxide Photo-Catalyst’s Footprint
(room for improvement

Titanium oxide is one of the few photo-catalyst used for industrial purposes. About half a century after its discovery, titanium oxide related products and services are provided and available, their recognition and penetration rate are low.

Potential Causes

Issues with Titanium Oxide】
Required strong sunlight for photo-catalyst
Issues from merchandise sellers
Overstated with its effect (Tokyo university brand, easy to be theorized)
Overpricing and no such a great effect expected
Gap between pricing and actual effects
nanozone SOLUTION is the one and only products carry powerful and ideal photo- catalystic effects

Use for Glass Surface!   Advantages of self-bonded 1/3

Because of self-bonded titanium oxide, it can be sprayed on the surface of glass, which is recognized as a difficult surface to have titanium oxide to be applied, and since it is firmly bonded and does not peel off, it can also be applied as a UV coating.

The cover glass was hung upside down for one day under ambient conditions. Later on, the surface was observed again using AFM. Figure 3 shows an AFM image of the surface. It can be seen that the particles did not peel off from the surface.

These images show that NanoYo Japan TiO 2 particles can adhere even on very flat glass and can hardly be removed from the glass.

It is easy to conclude that it is much more difficult to pull particles away from rough surfaces such as fabric, wood, and wall materials.

Shuji Adachi Professor of
Division of Food Science and Biotechnology, Kyoto University, Kyoto 606-8502, Japan

Use for Inner Space! Advantages of self-bonded 2/3

The self-bonded nanozone SOLUTION (self-bonded titanium oxide) is exposed as a neatly aligned on the coated surface of nanozone COAT, so it is possible to install it even in a place with a faint light like indoor environment.

 nanozone SOLUTION – Assured, Safe, and Transparent 

The ingredients of the nanozone SOLUTION are very simplified.
Water (drinking criteria)Titanium Oxide Alcohol 5% for dispersing titanium oxide
Titanium oxide used in nanozone SOLUTION is harmless to the human body and is recognized as a food additive globally, and it is also used as an antibacterial treatment for toothpaste, cosmetics, and internal medicine. The safety of titanium oxide has also been reviewed and approved by the US Food and Drug Administration (FDA).
In addition, 5% alcohol contained in the nanozone SOLUTION is added to stably disperse titanium oxide during the manufacturing process, and isoprovir alcohol is used.
*Alcohol disinfectants contain about 75% alcohol in general.