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Building photocatalytic coating Product List

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This is an example of photocatalytic treatment for anti-dirt measures on the exterior walls of a dental clinic.

This is an example of photocatalytic treatment for anti-dirt measures on the exterior walls of a dental clinic.

The hydrophilic effect of photocatalysts (self-cleaning effect) makes it easier for rain to wash away dirt from the glass of detached houses, creating a clean environment.

By applying a titanium dioxide aqueous solution, which is the raw material for photocatalysts, to the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst application, reactive oxygen species are generated on the surface, breaking down organic substances that cause dirt and odors into harmless water and carbon dioxide. Additionally, the surface of the outdoor photocatalyst application utilizes a hydrophilic effect, where rainwater spreads thinly under the dirt, contributing to self-cleaning as the dirt flows away with the water, thus maintaining the building's aesthetic and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effectiveness continues for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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This is an example of photocatalytic treatment for anti-dirt measures on the exterior wall of a dental clinic.

This is an example of photocatalytic treatment for anti-dirt measures on the exterior wall of a dental clinic.

The hydrophilic effect of photocatalysts (self-cleaning effect) makes it easier for rain to wash away dirt from the exterior walls of dental clinics, creating a clean environment.

By applying a titanium dioxide aqueous solution, which is the raw material for photocatalysts, to the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated, which decompose organic substances that cause dirt and odors into harmless water and carbon dioxide. Additionally, the surface of the outdoor photocatalyst, when exposed to rain, utilizes a hydrophilic effect that spreads water thinly beneath the dirt, allowing for self-cleaning as the dirt flows away with the water, contributing to the maintenance of the building's appearance and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effects continue for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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This is a case study of photocatalytic treatment for stain prevention and odor removal in smoking rooms of resort hotels.

This is a case study of photocatalytic treatment for stain prevention and odor removal in smoking rooms of resort hotels.

The photocatalytic oxidation power decomposes and suppresses/reduces the causes of indoor odors, bacteria, and viruses, creating a clean environment.

By applying a titanium dioxide aqueous solution, which serves as the raw material for photocatalysts, to the ceilings and walls of buildings, it exhibits effects such as anti-soiling, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst application, reactive oxygen species are generated on the surface, decomposing organic substances that cause dirt and odors into harmless water and carbon dioxide. Additionally, the surface of the outdoor photocatalyst application utilizes a hydrophilic effect, where rainwater spreads thinly beneath the dirt, contributing to self-cleaning as the dirt flows away with the water, thus maintaining the aesthetic of the building and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effectiveness continues for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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This is an example of photocatalytic application for the exterior walls (anti-soiling measures) of a support facility for people with disabilities.

This is an example of photocatalytic application for the exterior walls (anti-soiling measures) of a support facility for people with disabilities.

The photocatalytic decomposition of organic dirt and self-cleaning will break down the substances causing dirt both inside and outside the walls of facilities supporting people with disabilities, creating a clean environment.

■Titanium Dioxide Raw Material By coating a titanium dioxide aqueous solution, which is the raw material for photocatalysts, on the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. ■Indoor Photocatalyst When light hits the surface of the indoor photocatalyst, active oxygen is generated on the surface, which decomposes organic substances that cause dirt and odors into water and carbon dioxide, rendering them harmless. ■Outdoor Photocatalyst When rain hits the surface of the outdoor photocatalyst, a hydrophilic effect causes water to spread thinly beneath the dirt, contributing to self-cleaning as it flows away along with the surface dirt, thereby maintaining the aesthetic of the building and reducing cleaning costs. ■Duration of Photocatalytic Effect Since titanium dioxide, the raw material for photocatalysts, is inorganic, it does not degrade due to ultraviolet rays or other factors, and the effect continues for a long time as long as the coating substrate's paint surface or wallpaper does not peel off.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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This is a case study of photocatalytic coating on office building glass (anti-soiling measures).

This is a case study of photocatalytic coating on office building glass (anti-soiling measures).

The hydrophilic effect of photocatalysts (self-cleaning effect) makes it easier for rain to wash away dirt from building glass, creating a clean environment.

■Titanium Dioxide Raw Material By coating a titanium dioxide aqueous solution, which serves as the raw material for photocatalysts, on the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. ■Indoor Photocatalyst When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated on the surface, breaking down organic substances that cause dirt and odors into harmless water and carbon dioxide. ■Outdoor Photocatalyst When rain falls on the surface of the outdoor photocatalyst, a hydrophilic effect causes water to spread thinly beneath the dirt, contributing to self-cleaning as the dirt flows away with the water, thus maintaining the aesthetic of the building and reducing cleaning costs. ■Duration of Photocatalytic Effect Since titanium dioxide, the raw material for photocatalysts, is inorganic, it does not degrade due to ultraviolet light or other factors, and the effect continues for a long time as long as the coating substrate's paint surface or wallpaper does not peel off.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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This is a case study of photocatalytic glass installation for a detached house (anti-soiling measures).

This is a case study of photocatalytic glass installation for a detached house (anti-soiling measures).

The hydrophilic effect of photocatalysts (self-cleaning effect) makes it easier for rain to wash away dirt from building exteriors and glass, creating a clean environment.

The photocatalytic effects of anti-soiling, deodorization, antibacterial, antiviral, and mold prevention are utilized for maintaining the aesthetic appearance and improving the environment both inside and outside buildings. The self-cleaning effect (hydrophilic effect) of external photocatalysts, combined with the power of rain, provides anti-soiling effects for buildings. The organic decomposition capability of indoor photocatalysts effectively contributes to deodorization, antibacterial, antiviral, and mold prevention inside buildings. *For more details, please refer to the PDF document or contact us.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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This is a case study of photocatalytic coating on the exterior walls of a detached house (anti-soiling measures).

This is a case study of photocatalytic coating on the exterior walls of a detached house (anti-soiling measures).

The decomposition of organic contaminants using photocatalysts and self-cleaning will break down the substances causing dirt on building exteriors, allowing them to be washed away by rain and creating a clean environment.

The photocatalytic effects of anti-soiling, deodorization, antibacterial, antiviral, and mold prevention are utilized for maintaining the aesthetics and improving the environment inside and outside buildings. The self-cleaning effect (hydrophilic effect) of exterior photocatalysts, combined with the power of rain, provides anti-soiling effects for buildings. The organic decomposition capability of indoor photocatalysts is effective for deodorization, antibacterial, antiviral, and mold prevention inside buildings. *For more details, please refer to the PDF document or contact us.*

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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This is a case study of photocatalytic antibacterial and antiviral treatment in the office of a beverage factory.

This is a case study of photocatalytic antibacterial and antiviral treatment in the office of a beverage factory.

Using the oxidative decomposition power of photocatalysts, we suppress and reduce the causes of bacteria and viruses in the office, creating a clean environment.

By coating the ceilings and walls of buildings with a titanium dioxide aqueous solution, which is the raw material for photocatalysts, it exhibits effects such as anti-soiling, deodorization, antibacterial properties, antiviral properties, and mold prevention. When light hits the surface of the indoor photocatalyst application, reactive oxygen species are generated on the surface, breaking down organic substances that cause dirt and odors into harmless water and carbon dioxide. Additionally, the surface of the outdoor photocatalyst application has a hydrophilic effect, where rainwater spreads thinly beneath the dirt, contributing to self-cleaning as it washes away the surface dirt, thus maintaining the building's aesthetic and reducing cleaning costs. Since the raw material for the photocatalyst, titanium dioxide, is inorganic, it does not degrade due to ultraviolet rays or other factors, and its effectiveness lasts for a long time.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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This is an example of photocatalytic treatment in a smoking room of a lodging facility (anti-soiling and deodorization measures).

This is an example of photocatalytic treatment in a smoking room of a lodging facility (anti-soiling and deodorization measures).

The photocatalytic oxidation decomposition power (decomposition of dirt) breaks down and suppresses/reduces the harmful substances such as tar stains from smoking, creating a clean environment.

■Raw Material Titanium Dioxide By coating a titanium dioxide aqueous solution, which is the raw material for photocatalysts, on the ceilings and walls of buildings, it exhibits effects such as anti-soiling, deodorization, antibacterial properties, antiviral properties, and mold prevention. ■Indoor Photocatalyst When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated on the surface, decomposing organic substances that cause dirt and odors into water and carbon dioxide, rendering them harmless. ■Outdoor Photocatalyst When rain hits the surface of the outdoor photocatalyst, a hydrophilic effect causes water to spread thinly beneath the dirt, contributing to self-cleaning as the dirt flows away with the water, thus maintaining the aesthetic of the building and reducing cleaning costs. ■Duration of Photocatalyst Effect Since titanium dioxide, the raw material for photocatalysts, is inorganic, it does not degrade due to ultraviolet light or other factors, and the effect continues for a long time as long as the coating substrate's paint surface or wallpaper does not peel off.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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This is an example of photocatalytic application on truck bodies (anti-soiling measures).

This is an example of photocatalytic application on truck bodies (anti-soiling measures).

We will create a system that decomposes organic dirt on truck bodies through photocatalytic degradation and self-cleaning, making them clean while also reducing cleaning costs.

■Titanium Dioxide Raw Material By coating a titanium dioxide aqueous solution, which serves as the raw material for photocatalysts, on the ceilings and walls of buildings, it exhibits effects such as anti-soiling, deodorization, antibacterial, antiviral, and mold prevention. ■Indoor Photocatalyst When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated on the surface, decomposing organic substances that cause dirt and odors into harmless water and carbon dioxide. ■Outdoor Photocatalyst When rain hits the surface of the outdoor photocatalyst, a hydrophilic effect causes water to spread thinly beneath the dirt, contributing to self-cleaning as the dirt flows away with the water, thus maintaining the aesthetic of the building and reducing cleaning costs. ■Duration of Photocatalytic Effect Since titanium dioxide, the raw material for photocatalysts, is inorganic, it does not degrade due to ultraviolet light or other factors, and the effect continues for a long time as long as the coating substrate's paint surface or wallpaper does not peel off. *For more details, please refer to the PDF document or contact us.*

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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This is a case study of photocatalytic coating on office building glass (anti-soiling measures).

This is a case study of photocatalytic coating on office building glass (anti-soiling measures).

The hydrophilic effect of photocatalysts (self-cleaning effect) makes it easier for rain to wash away dirt from office building glass, creating a clean environment.

■Titanium Dioxide Raw Material By coating a titanium dioxide aqueous solution, which serves as the raw material for photocatalysts, on the ceilings and walls of buildings, it exhibits effects such as dirt resistance, deodorization, antibacterial properties, antiviral properties, and mold prevention. ■Indoor Photocatalyst When light hits the surface of the indoor photocatalyst, reactive oxygen species are generated on the surface, breaking down organic substances that cause dirt and odors into harmless water and carbon dioxide. ■Outdoor Photocatalyst When rain hits the surface of the outdoor photocatalyst, a hydrophilic effect causes water to spread thinly beneath the dirt, contributing to self-cleaning as it flows away with the surface dirt, thereby maintaining the aesthetic of the building and reducing cleaning costs. ■Duration of Photocatalytic Effect Since titanium dioxide, the raw material for photocatalysts, is inorganic, it does not degrade due to ultraviolet rays or other factors, and the effect continues for a long time as long as the coating substrate's paint surface or wallpaper does not peel off. *For more details, please refer to the PDF document or contact us.*

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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This is a case study of photocatalytic treatment of bathroom glass in a resort hotel (anti-soiling measures).

This is a case study of photocatalytic treatment of bathroom glass in a resort hotel (anti-soiling measures).

The hydrophilic effect of photocatalysts (self-cleaning effect) makes it easier for dirt on bathroom glass to be washed away by water, creating a clean state.

The photocatalytic effects of anti-soiling, deodorization, antibacterial, antiviral, and mold prevention are utilized for maintaining the aesthetics and improving the environment inside and outside buildings. The self-cleaning effect (hydrophilic effect) of external photocatalysts, combined with the power of rain, provides anti-soiling effects for buildings. The organic decomposition capability of indoor photocatalysts is effective for deodorization, antibacterial, antiviral, and mold prevention inside buildings. *For more details, please refer to the PDF document or contact us.

  • Photocatalysts and various wall materials (exterior and interior walls, etc.)
  • Building photocatalytic coating

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