ABOUT NON - PHOTOCATALYST

NON - Photocatalyst is an upgraded substitute for photocatalyst and another breakthrough in indoor air pollution control technology. The main component of the non-photocatalyst is an ultra-nano-micromolecular titanium dioxide compound. Ultra-nano-micromolecular titanium dioxide is a substance with a primary pore structure of 2-50 nanometers, with a surface area of ​​up to 700 ㎡ / g. When sprayed onto the surface of the object, it appears as an inorganic acid amorphous polymer film, which forms nano-sized micropores after drying structure.

Unlike the catalysis of nano-titania photocatalyst by ultraviolet irradiation, this ultra-nano-micromolecular titania phosphate has a high energy translocation effect due to strong adsorption and potential transfer due to the characteristics of nanoparticles, which can be catalyzed in the absence of light The reaction (redox reaction) produces hydroxyl radicals (· OH) with a strong oxidizing effect, which can oxidize and decompose various indoor harmful organic compounds (such as formaldehyde, benzene series, ammonia, TVOC, etc.) and can destroy The bacterial cell membrane and the protein of the solidified virus play a disinfecting and sterilizing effect. This reaction eventually decomposes organic pollutants into harmless carbon dioxide (CO2) and water (H2O), and thus has strong functions of removing formaldehyde, odor, antibacterial and air purification.

- Break through the limitation of photocatalyst by light excitation:

- 24 continuous decomposition in the absence of light

- Safe and non-toxic, does not irritate the skin, does not damage metals and textiles

- No secondary pollution without adding binder

- Realize antibacterial, deodorizing and deodorizing and deodorizing processes of organic harmful gases into carbon dioxide + water.

- Very penetrating

- Effectively remove tenacious formaldehyde in furniture

- Mainly aimed at the inside of wooden furniture and the long-term blind position

ABOUT ECO - B

ECO-B(Base)The non-photocatalyst is the base layer, which plays a role in cleaning and protecting the substrate. It has a basic formaldehyde removal effect and synergistic effect with C.

It is mainly applied on the surface of the pollution source, which plays a role in cleaning and protecting the base material, so that the purification layer can better adhere to the surface of the base material, and at the same time, it can quickly remove pollution and have a certain catalytic decomposition effect.

ABOUT ECO - C

ECO-C(Clean)The non-photocatalyst is a purification layer that exerts the main long-lasting anti-formaldehyde, odor-removing and antibacterial effects.

It is mainly applied on the surface of pollution sources, walls, ceilings and other places. It is used on the upper layer of ECO-B (Base layer) and has a strong and lasting effect of "deodorization, antibacterial, aldehyde removal and deodorization". When there is no wallpaper and it is used as a base material for latex paint walls, ceilings, etc., without applying ECO-B (Base layer), this product can be directly applied to exert strong and lasting catalytic, decomposition, and purification effects.

關於無光觸媒

無光觸媒是光觸媒的升級替代品,是室內空氣污染治理技術的又一次突破。無光觸媒主要成分是超納米微分子磷酸二氧化鈦化合物。超納米微分子磷酸二氧化鈦是具有 2~50 納米一次元細孔構造的物質,表面積可達 700 ㎡/g,噴塗到物體表面呈現為無機酸非晶體聚合物薄膜,乾燥後形成納米尺寸的微細孔結構。

 

與納米二氧化鈦光觸媒通過紫外線照射發生催化作用原理不同,該超納米微分子磷酸二氧化鈦因具有強烈的吸附性和因納米粒子特性的電位轉移而產生高能量易位效應,可在無光條件下進行催化反應(氧化還原反應),產生具有強氧化作用的氫氧自由基( ·OH),可氧化分解各種室內常見有害有機化合物(如甲醛、苯系物、氨氣、 TVOC 等),並能破壞細菌的細胞膜和固化病毒的蛋白質,起到消毒殺菌的效果。該反應最終把有機污染物分解成無害的二氧化碳( CO2)和水( H2O),因而具有極強的除甲醛、除異味、抗菌及淨化空氣功能。

- 突破光觸媒受光激發的限制:

- 無光環境下24持續不停分解

- 安全無毒,不刺激皮膚,不損害金屬和紡織品

- 不添加黏合劑無二次污染 

- 實現抗菌、除臭和將有機有害氣體分解為二氧化碳+水的除醛、淨味過程。

- 極具滲透力

- 有效去除傢俱內的頑強甲醛

- 主要針對木製傢俱內側及長期不見光位置

關於ECO - B

ECO-B(Base)無光觸媒是基礎層,對基材起到清洗和保護作用,具有基本除醛淨味效果,與C協同作用,有利於C型附著並發揮更好的效果。

主要施工於污染源表面,對基材起到清洗和保護作用,以便於淨化層更好的附著在基材表面,同時可快速清除污染,具有一定的催化分解效果。

關於ECO - C

ECO-C(Clean)無光觸媒是淨化層,發揮主要的持久除甲醛·除異味·抗菌效果。

主要施工於污染源表面及牆壁、天花板等地,用於 ECO-B( Base 基礎層)上層,具有強效持久的「消臭·抗菌·除醛·淨味」效果。在沒有壁紙的情況下,用於乳膠漆牆壁、天花板等基材時,因不能施工 ECO-B( Base 基礎層),只直接施工本品,即可發揮強效持久的催化·分解·淨化效果。