What is NOx, and Why NOx removal is so important?


NOx is a kind of toxic gas produced by the combustion of hydrocarbons in the atmosphere. It has two variants nitric oxide (NO) and Nitrogen Dioxide (NO2). Both gases are extremely reactive in nature and detrimental to the environment. NOx is also responsible for the depletion of the ozone layer.

Environmentalists and scientists have raised concerns regarding the high levels of NOx in the air and have developed a technique for NOx removal.

It is scientifically proved that NOx is a potent greenhouse gas that is 310 times more harmful and stronger than CO2. The high concentration of NOx in the air also results in acid rain.

So, let us first know the sources of air pollution and then find out the methodology of its removal.

Common sources:

  • Power Generation plants: Most power generation plants burn up the hydrocarbons like coal to generate electricity and, in the process, emit NOx.
  • Automobiles: The fuel like petrol and diesel on being burnt also emit NOx in air.
  • Industrial units: There are many industrial units that, in the process of manufacturing various goods, produce harmful NOx gas.
  • Residential gas and oil combustion also result in the contribution of NOx to the environment.
  • Industrial boilers: The industrial boilers need to be heated at a very high temperature, and in this process, a lot of fuel is burnt up. When the fuel is burned at an extreme temperature, it forces the nitrogen to combine with Oxygen, resulting in NOx production.

The other common NOx emitting sources would include sea vessels and marine equipment.

Techniques for combatting nitrogen Dioxide pollution from Tipe

Tipe offers a nano photocatalyst technology for the treatment of high levels of NOx in the atmosphere. It has developed an effective coating material that can be applied on roads, buildings and comes at an affordable price. Again, the industrial emissions and automobile exhaust present in the air reacts with the coating to destroy the serious effects of harmful photochemical pollution. In short, it decomposes the pollutants present in the air and reduces the greenhouse effect.


  • Purifies automobile exhaust using sunlight.
  • It has self-cleaning features that result in a reduction in maintenance cost.
  • It destroys the NOx emissions produced in the air.


  • The coating, when applied in the tunnel, leads to the elimination of feculent air present inside.
  • When the coating is applied to the building and industrial units, it reacts and destroys the harmful NOx present in the air.
  • It has self-cleaning and anti-mildew features, so once a coating is applied, it can last for a longer time.


The government has realized the worth of nano photocatalytic coating technology and therefore does not pay hefty amounts for NOx removal. The coating is widely applied on buildings and roads for combatting NOx. It also helps the government to abide by the Kyoto protocol of reduced carbon emission as per nations.

Advanced Air Purification Technolgy by TiPE for Improved Atmosphere

An air purifier is a machine that purifies the air in your surrounding by removing all impurities such as odors, smoke, dust, and pet dander. What is more shocking to know is that such contaminants can be five times higher in indoor air than in outdoor air. Wondering why? Pollutants often find their way into your apartment or home in every scenario, mainly if you live in a polluted or disaster-prone area!

How does an air purifier work?

A filter, or several filters, and a fan that draws in and circulates air are the most common air purifier components. Pollutants and contaminants are collected as air passes through the filter, and the clean air is forced back into the living room. Filters are typically made of paper, fiber (often fiberglass), or mesh, and they must be replaced regularly to remain effective.

You can also read about “best smog removal technique.”

Things to consider in an air purifier –

  • CADR rating (clean-air distribution rate) –

This is a measurement of the cleaner’s cleaning speed for removing dust, smoke, and pollen. Watch for a CADR of at least 300, and anything over 350 is fantastic.

  • Dimensional guidance –

A configured model to function in the room size is needed for good effectiveness. If you require running it at a lower, quieter setting, choose a built model for a larger area than the one you are outfitting it for.

  • Checked by the AHAM (Association of Home Appliance Manufacturers) –

The AHAM standards aim to ensure the safety, dependability, and efficiency of healthcare equipment, including air purifiers. The standards aim to make the purchasing process easier by creating a shared understanding between producers and consumers. Although this qualification program is optional, most reputable air purifiers have completed it and include CADR rankings and size guidelines.

  • Real HEPA filtration –

True HEPA filters can filter out ultrafine particles (dust, dander, pollen, mold, and other common allergens in the home). In a lab setting, the device must be able to remove at least 99.97 percent of particulates exceeding 0.3-micron diameter, according to industry standards. It’s important to remember that the actual effectiveness of these devices in real-world environments will be much lower as new contaminants emerge regularly. It’s worth noting that the words “HEPA-like” and “HEPA-type” have no industry standard and are often used as marketing ploys to persuade customers to buy the product.

The Bottom Line – 

Over time, searching for an environmentally safe air purification solution has become much simpler and more accessible. However, there are many things that need to be considered while looking for an air purifier. Overall, an air purifier will aid in establishing good, clean air quality in your home that is safe to breathe for you and your family.

The air purification technique by TiPE is one of the most advanced technologies with improved features. It satisfies most of the considerations mentioned above and is beneficial for asthma and allergy sufferers, removing harmful airborne contaminants.

For more information, call us on +86-(21)-6363-4152
or email us!

Benefits of Antimicrobial Coating from TiPE

Touch screen technology is now used in the majority of our electronic devices. It can be considered a huge part of our everyday lives. Its presence has extended to various sectors, including personal devices, quick service restaurants, medical devices, and more. However, it is not limited to this, as screen touch technology can only grow as new devices and industries emerge.

Well, keeping aside the fact that it makes our lives easier, infection-causing bacteria are widely found in public touch screens, such as those found in hospitals and retail stores.

So, if you want to prevent bacteria from growing on your touch screen, you’ll need to switch to an advanced antimicrobial coating. This coating technology restrains antimicrobial activity, inhibits bacteria’s growth, and prevents the infection or disease from spreading.

Everything to know about antimicrobial coating –

TiPE is one of the most well-known antimicrobial coating producers. We have a cutting-edge approach for limiting antimicrobial growth by adding our nano VLR modified photocatalyst, which helps to destroy all forms of bacteria and viruses, including MRSA, SARS, and H5N1, as well as their mutants. The best part is that the antimicrobial coating’s output lasts a long time, thanks to the catalytic reaction mode.

A few of the advantages of our antimicrobial coating are mentioned below. Please take a look at the following to obtain a better understanding –

  • Germ-free protection – 

The antimicrobial coating protects different surfaces, including glass and ceramics, from the spread of bacteria-related diseases. It protects against harmful bacteria and viruses for an extended period. The solution was created to create a germ-free surface for technologies used in public places.

  • Long-lasting – 

TiPE antimicrobial coating is suitable for germ-free settings such as hospitals, classrooms, and hotels. This does not reduce its longevity; in reality, if used properly, it can last almost a lifetime. TiPE’s antimicrobial coating provides industry workers with full peace of mind in hospitals, retail stores, homes, and other environments.

  • Deodorization and anti-allergen function – 

The surfaces may also develop a foul odor due to several factors, including the presence of smoke. Our photocatalyst antimicrobial assists in the removal of odors as well as the elimination of indoor allergic agents. The best part is, this is effective in lowering the risk of respiratory disease of some sort.

The Conclusion – 

When people use touch screens more often, the risk of bacterial infection rises. This is why we need to find a trustworthy antimicrobial coating solution for full safety in public places like hospitals and schools.

The TiPE nano photocatalytic antimicrobial solution is the most advanced technology available for limiting and destroying bacterial and viral growth. The solution is highly long-lasting and can also aid in odor removal. Along with this, we have other odor-elimination innovations!

Everything to Know About the Best Smog Removal Technique

Our climate and people are suffering as a result of air pollution. Smog and other toxic gas emissions have choked towns and cities. A thick layer of gas, combined with a high percentage of smoke, nitrogen oxide, volatile organic compounds (VOCs), fuel emissions, and particulate matter, is becoming a significant source of air inconsistency around us. The combination of all these has resulted in the formation of smog.

Fortunately, there is an environmentally safe way to get rid of smog! TiPE has launched the nano-photocatalytic coating created from solar energy and nanoparticles to eliminate smog from public and private spaces!

TiPE smog removal solution –

By applying the special anti-smog coating by TiPE to cars, houses, and roads, you can eliminate smog accumulation in the atmosphere, reduce its incidence, and lower the percentage of contaminants. The nano-photocatalytic coating is a smog removal technique that is effective, dependable, and environmentally friendly.

In the presence of sunlight and nanoparticles, this process requires a photocatalytic oxidation reaction between contaminants such as VOC, nitrous oxide, and other agents. Amongst all, it is the most important to get rid of nitrous oxide as it is one of the harmful gases.  The chemically inert components decompose into organic particles, including hydrogen and carbon dioxide, due to the sun’s energy. When nitrogen or sulfur oxide comes into contact with the smog-removal coating, a photochemical oxidation reaction occurs. In nanoparticles’ presence, it decomposes the particles, causing no damage to people or the environment.

Furthermore, it has a long-lasting impact since the reaction continues unabated. The cost of maintaining government properties such as bridges, public transportation, and buildings is also reduced because you don’t have to paint them as much.

The goal –

  • Purify and decompose contaminants in the environment
  • Limit the percentage of NOx, sulfur, and carbon dioxide in the atmosphere
  • Assists in mitigating global warming effects
  • Reduces the possibility of a photochemical crisis in cities
  • Increase the percentage of oxygen
  • Nanoparticles and photocatalytic oxidation reaction decompose contaminants into an environmentally safe substrate, causing no further emissions.
  • The self-cleaning property extends the life of the product and eliminates the need for routine maintenance.
  • Decompose air pollutants such as nitrous oxide, sulfur, and volatile organic compounds to a safe particulate matter level (PM).

What are the benefits that can be availed of?

  • A nano-photocatalytic smog-removal coating eliminates all pollutants from the air, ensuring that you breathe clean, fresh air every day.
  • Removes airborne bacteria and germs
  • Decomposes contaminants organically
  • Produces a high-performance smog-removal system
  • No emissions, no maintenance costs
  • Used on highways, government buildings, and other auxiliary facilities to destroy automobile exhaust and reduce acid rain’s impact while also offering self-cleaning and anti-mildew properties to lower overall maintenance costs.
  • Air purifier reaction core
  • Best for residential buildings, offices, schools, hospitals, other public areas, and public transportation.

The Bottom Line –

Smog-removal coatings of TiPE’s solution on personal vehicles and residential buildings can make a significant environmental contribution. Its self-cleaning properties, anti-mold and mildew work, and air purification properties can all be used. For smog-free public spaces, use the advanced Nano-photocatalytic coating, allowing people to breathe and enjoy clean air for free.

For more information, call us on +86-(21)-6363-4152 or email us at reinhard@titanpe.com.