Both the technological and economic importance of photocatalysis has increased considerably over the past decade. Improvements in performance have been strongly correlated to advances in nanotechnology. A variety of applications ranging from anti‐fogging, anti‐microbial and self‐cleaning surfaces, through to water and air purification and solar induced hydrogen production, have been developed and many of these have made their way into commercial products.

The total market for photocatalyst products is forecast to grow at a CAGR of 12.6% during the next five years, reaching nearly $2.9 billion by 2020. The construction sector is projected to reach $2.6 billion during this time. The consumer product sector is also projected to grow from $155.6 million in 2015 to $220.3 million in 2020 at a CAGR of 7.2%.

Green Millennium provides photocatalyst surface coating with long-lasting effects of deodorization, sterilization, and anti-soiling purposes. Easy on application with spraying coating technique, a fine mist of photocatalyst can be applied on different types of surface material that guarantees the maximum result.

Building maintenance
Green Millennium’s Photocatalyst coating can be applied on the exterior of a building to treat and prevent unsightly damages caused by acid rain, moisture, smog, and bio infestation etc. It cuts down the overall maintenance cost and time.

  • Building walls, glass and metal claddings
  • Automobiles, marine & aircraft bodies
  • Illuminator & illumination cover
  • Historical buildings protection
  • Sound proofing wall & Accessory structures of roads
  • Advertisement sign & Reflective traffic mirror
  • Fountain, sculpture & landmark
  • Industrial facilities
  • Solar photovoltaic panel & solar heater

Green Millennium’s Photocatalyst coating decomposes odor molecules caused by tobacco smoke, pets, chemicals in detergents, urine and fecal matters, VOC smells etc. Photocatalyst will continuously deodorize your living space and eliminates the sources. With a constant amount of light provided, Green Millennium’s photocatalyst coating can control and prevent growth of bacteria, germ, and mold. Any harmful bacteria and germ would be killed and decomposed in this sterilized condition.

  • Hotel
  • Restaurant
  • Casino
  • Advertisement sign & Reflective traffic mirror
  • Fountain, sculpture & landmark
  • Industrial facilities
  • Solar photovoltaic panel & solar heater

Auto and Transit
Among the largest public populations at risk is an enclosed space are those in public transit, underground stations or terminals, airport terminal and large passenger compartment (e.g., trains, cruise ships, and aircraft). HVAC systems in enclosed spaces my increase exposure risks caused by continued circulation of odors, biological matters, radioactive gases, fumes, or fine particles. Surface with a greater absorptivity for particles will have greater level of surface contamination. Photocatalyst coating purifies and deodorize the interior environment and gives the passengers, driver a more pleasant travel experience.

  • Public transportations (bus and train)
  • Aircraft
  • Cruise ships
  • Company Cars
  • Rental cars
  • Taxis
  • Limousines

Health Care
The following are some of the key promises for the significant growth of antimicrobial coatings in recent years:

  • They help stop the spread of pathogens that can cause disease, which is especially important in a hospital setting where many people already have weakened immune systems.
  • They have the potential to meaningfully lower the environmental impact of cleaning in a medical setting, where scores of different chemicals are used for a variety of purposes.
  • If surfaces do not need as thorough a cleaning to prevent the spread of disease, it could reduce the amount of cleaning time—and therefore, cost—necessary to maintain facilities.

Our photocatalyst hygienic coating breaks down organic matter at the molecular level and one application will last for many years provide a constant source of self-cleansing on the surface.

Architect / Engineers / General contractors
Our photocatalsyt coating is a popular choice with designers and architects in commercial roofing applications throughout Asia, is now available to the North American custom fabric roofing industry.

TiO2 is a revolutionary step for the North American green building market, improving the way roofing systems perform by featuring a unique self-cleaning process that extends the vibrancy of the non-toxic material.

The benefits of the new coating material uses the sun’s UV radiation, along with the oxygen and water vapor present in the air, to create active oxygen ions. The active oxygen ions, in turn, decompose the organic dirt into natural components  by an oxidation-reduction reaction. When it rains, the resulting decomposed material simply gets washed off without leaving streaks.”

  • Membrane: (1) PTFE Fiberglass (2) ETFE Film, (3) PVC (4) Insulated tension membrane
  • Facades
  • Architectural umbrellas

Manufacturing Integration
Building material

  • Concrete
  • Paving Stones
  • Paints and Coatings
  • Plasters
  • Fibers
  • Paper
  • Water Treatment
  • Air / water Purification (filters)
  • Vacuum cleaner
  • Refrigerator
  • Light fixture
  • Trash Can
  • Mosquito trap

Solar panel
PV panel performance can degrade by 20%+ without adequate cleaning To keep solar panel clean is challenging but it is an essential component of any solar maintenance program. Dirty panels produce less electricity than clean panels.  Prolong buildups of the environmental pollutants not only will cause the glass to smear but will also make it extremely hard to clean, even with chemicals. Our photocatalyst self cleaning coating is engineered to use the sun and rainwater to remove organic dirt and debris. As result, it increases the energy output of the solar by keep surface clean and reduce modules surface temperature. It is one of the simplest way and cost effective method to increase rate of return by 15% or more. Multi-innovated feature bring more possibility to the solar panel industry, in R&D and industrialization.