Successful IGREET seminar at CYBERJAYA

Today, 24th morning, we did a very successful seminar at the Cyberjaya mainly focusing on the green concept of the township.

3 topics was presented and they are:
1) managing energy efficiency and environmental impacts
2) using IT to reduce carbon emissions
3) our nano tio2 technology

the event site

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our super presenter, Dr. Arthur Koh cooling himself down before his turn

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the show begins

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presenting our nano tio2’s track records

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the Q&A session

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souvenir presentation time

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event ended up with a wonderful lunch and networking session

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the event

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Real Estate Housing Developer Association (Malaysia) New Project Update

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Today, 23rd November 2011, we have started our nano tio2 application at the Core Section of the External Feature of this building.

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This section will be the signature of the new REHDA Building and it will also be Arc Flash’s nano tio2 self cleaning coating’s signature as well.

The external application is scheduled to be completed by the end of November before we rest for 3 weeks while waiting for the interiors of the building to be completed before we proceed with finishing up the application of the whole interiors for the Indoor Air Quality features of our nano tio2.
It will be scheduled to be completed by the end of December before the hand over of the building. We are keeping our fingers crossed hoping everything will be on schedule so that we can complete it on time..

More Updates will be produced as soon, by sections of the progress of our work..

Thank you for your valuable comments

Dear all…
Just want to let you know that we have received all your valuable comments. However, we seems to have problem approving all your comments made… So, we decided to thank you all through this channel…

We will keep up our good work and will keep updating our blog and website very frequently…

Once again, thanks for your kind support and we hope you will carrying on liking what you have read and will be reading in the future….

You can still leave comments for us… Even though we can’t approve them and publish them in our blog at the moment, but we will still be able to receive them….

From: nanoyo, Malaysia

Arc Flash Malaysia, invitation as a speaker at cyberjaya’s IGREET event

Arc Flash’s strongest partner and speaker Dr. Arthur Koh of A-Solution Enterprise has been invited as one of the speaker in the following event:

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Dr. Arthur Koh is a very experienced speaker and very knowledgeable in the air purifying technology and recently with Arc Flash Corporation, he has gained a lot experiences through numerous researches on the nano tio2 technology.

details will be updated after this event

Have we done hotels and resorts before In malaysia?

Here we are saying our nano tio2 is applicable to here and there…. Even hotels… But have we done hotels and resorts before? Well, yes…. Of course…

Here is a resort built on a man made pond which is made of wood. Now, we all know that when there’s wood and water in combination, there can only be the one and only problem… Mold/ fungus growth…

Well there has been complains of musky and mold smell which are very unpleasant… Prolonged staying in the environment will result a lot of respiratory problems.
Therefore, we were being called to apply our nano tio2 in all 12 chalets in this resort, including the karaoke room.

Firefly Resort

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Here is another hotel we did in Penang. It’s a Five Star Hotel and patrons staying here have very high expectations. So, even the slightest smell is unacceptable.

A Five Start Hotel in Penang

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Now, where did we applied our nano tio2 in these resort and hotel? Our nano tio2 was being applied to all the surfaces of:
1. Ceilings
2. Walls
3. Carpeted floors
4. Furnitures
5. Lightings
6. Jacuzzi
7. Toilet bowl

We even applied their TV.

What do they get after the application?

1. Long term cost savings on maintenance in the sense of:
A) cleaning chemicals
B) cleaning number of cleaning on their schedule
C) fragrances materials to cover the bad smell. Not forgetting most of these materials contains VOCs that are harmful

2. Bacteria free environment

3. Mold free environment

4. VOCs free environment

5. Communicable deceases are in control

6. All rooms can be converted to smoking room and non smoking room because of the self deodorizing effect.

Most importantly, CUSTOMERS SATISFACTIONS which is the core of every service industry’s policies.

Note: these are projects done before 2009 when our electrostatic spraying system was not available at that time.

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REHDA PROJECT (Malaysia)

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It has been a long wait for us to see the project to come to this stage. Finally, it’s our turn to kick start our part. This is going to be a 3 phases project.
We will start off with all the glass panels, followed by the rest of the whole external surfaces when the paint job is done and then finally, it’s our final touch after all the interior jobs are being completed.
This project is expected to be hand over by 31st December 2011. Hopefully all will go well..

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Ivan is cleaning the glass panels before he can apply our tio2 on. It’s definitely not an easy job….

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all these glasses has to be applied 1 by 1, which takes a lot of time… But with our electrostatic sprayer, no problem…..

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next round, will be the rest of the exterior building structures… Now, that’s gonna be the toughest part because the nature of the landscape of this building is that, it’s unaccessible by cranes… It’s all on the scarf holdings..

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Upon Completion of Our Nano Tio2 Application, What will this Building gets?


1. Close to Zero VOCs level

2. Close to Zero Microbial like bacteria, molds/fungus, allergens and even virus level

3. Does not need to install air purifiers

4. Very minimal maintenance for cleaning the external structures because of the nano tio2’s self cleaning effect

5. Effects lasting up to 3 to 5 years, with a 2 years warranty

6. Cost savings in the long run for many aspects

Can this be proven? The building will go through a commissioning process by the green building commissioners before it can be certified. Apart from the professional equipments used by the commissioners to monitor the results, there are also 3rd party labs that can perform indoor air quality sampling tests, swap tests and also VOCs tests.

like what you are reading? Long onto our website for more information of click like at our Facebook fan page for more of our activities and updates…

Harnessing the power of light to purify the air in your car with nano tio2 (Malaysia)

The warm and humid tropical climate in Malaysia and the rest of the Southeast Asian region, creates prime breeding ground for harmful bacterial, yeast and viral organisms. This can aggravate allergies of the sinus, skin and eyes, as well as particularly increase the risk of contagious air-borne diseases such as tuberculosis and SARS (severe acute respiratory syndrome).

In the recent years, consumers have been flooded with an influx of air purifier products – ranging from compact air ionizers to air-conditioners which kill harmful organisms in the air. Well-intended as they are created to be, these products are limited to their areas of application and require hardware installation as well as periodical maintenance.

But with the ARC FLASH Nanotech Photo-catalyst, consumers here can now enjoy the high quality clean air and environmental protection which have been enjoyed by residents in Japan, USA, Taiwan and Hong Kong. ARC FLASH photo-catalytic is a colorless liquid coating with 30% nano-sized titanium dioxide (TiO2) as its main ingredient. As a semi-conducting photo-catalyst, TiO2 lowers the chemical activation energy to enhance chemical reaction or accelerate the reaction rate under photo-irradiation. However, TiO 2 does not decompose or degrade from any resulting chemical reaction due to photo-irradiation.

ARC FLASH is as innovative as it is convenient without requiring hardware installation and periodical maintenance. Application is easy – spraying the liquid paint onto the intended surfaces using the ARC FLASH special spray gun. While pre-treatment of cleaning the surfaces with u-Clean soap is optional, it is required to cover reflective surfaces especially mirrors before spraying ARC FLASH as the liquid photo-catalyst causes a slightly matte-like effect which distorts vision. Suitable applications for ARC FLASH are especially the interiors of residences, offices, healthcare institutions and automobiles.

Suitable surfaces within buildings to apply ARC FLASH would be ceilings and walls, as with car seats, dashboards and side panels in a car surfaces. When TiO 2 is exposed to UV radiation from sunlight or other illuminated light sources, this maximises the oxidization capabilities of TiO2 to degrade the harmful micro-organisms in a process similar to photosynthesis. This thus produces purified air which is 99.97% bacteria-free.

Besides its hassle-free application process, ARC FLASH is odourless and non-toxic, while being self-disinfectant, self-deodorising and protecting the treated surfaces from stains after application during its effective treatment period. ARC FLASH uses a quick-drying binder that hardens and is water-insoluble within seconds after the treatment date. Therefore, it is advised that the treated surfaces not be cleaned or affected in any way from interference of other chemical cleaning products during this period of time while the TiO 2 is hardening on the treated areas. See here to find out how it works really. http://www.nanoyo.com.my

Each automotive application costs RM260 to RM380 with treatments for buildings costing between RM2.50 to RM3.00 per square feet (psf) of the total buiild up area. Every automotive application lasts 2.5 years, with treatments in building lasting 5 years. Therefore, each ARC FLASH treatment is backed with a warranty of similar duration according to their areas of application.

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Currently supplied from 12 outlets nationwide in Malaysia including Sabah and Sarawak, ARC FLASH is also supplied to Brunei, Indonesia and Cambodia in the Southeast Asian region. The company is continously expanding to the rest of South East Asian market and is also looking for sales agents and distributors nationwide locally in Malaysia.

we had a grand launch for our application for car at euphoria, sunway in year 2009

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for more about the launch please visit our media partner’s blogs at autoworld , on the road magazine and the star newspaper

To date, notable business premises the likes of Menara TM, OCBC (Kluang branch), Palace of The Golden Horses (a few rooms), the executive level (smoking area) of the Shang-ri La Kuala Lumpur, suruhanjaya tenaga, jkr, bmw HQ at cyberjaya, CIMBand AEROLINE buses (plying the KL – Singapore route) are just a few of the many places which have been treated with ARC FLASH. For more enquiries and services, please contact Mr. Wong Weng Heng at 012-283 4298 or email to heng@nanoyo.com.my or visit the official ARC FLASH website at http://www.nanoyo.com.my

Arc Flash’s Nano Tio2 Application in Action (Malaysia)

You have seen what Arc Flash’s nano tio2 can do. Have you any idea how its being applied? Our nano tio2 is being applied using the direct spray on system. The tool that we use is not just an ordinary spray paint gun you can get in the market, but we are using the ELECTROSTATIC SPRAYER SYSTEM.

Here is an example of a typical application for Arc Flash Corporation’s Nano Tio2
Arc Flash’s Electrostatic Application

Nano Coating Using Electrostatic Technology – How it works

Nano coatings are composed of extremely tiny droplets. Electrostatic application of a nano coating employs the law of physics describing the electrostatic interaction between electrically charged objects. This law is behind why metal filings are drawn to a magnet, lint is attracted to your clothes or dust clings to the screen of your television. These are all examples of Coulomb’s law in action – opposite electrical charges attract and “like” charges repel. (These principles of physics were first published in 1783 by French physicist Charles Augustin de Coulomb.)
In numerous commercial, industrial and agricultural spraying operations, electrostatic forces of attraction significantly improve the deposition (coating) of charged droplets onto target surfaces. Such operations include liquid and powder paint coatings, electrostatic precipitation of air pollutants from stacks, electrostatic spraying of agricultural pesticides onto field crops and orchards, xerographic copying, ink-jet printing, textile flocking, and more recently, disinfection, sanitization and decontamination applications.

Droplet Control & Droplet Size

Common to all these electrostatics based operations are droplet control and droplet size. Droplet control consists of first, imparting an appreciable net electrical charge onto the individual droplets (e.g., 5-15 mC/kg charge – to mass), and secondly, propelling the charged droplets to the target surface.
Droplet size is the result of shattering, or atomizing, the jet of spray coating into much smaller droplets. Droplet sizes are measured in microns. The most common term used to describe droplet size is Volume Median Diameter (VMD). VMD refers to the midpoint droplet size (mean), where half of the volume of spray is in droplets smaller, and half of the volume is in droplets larger than the mean. A VMD of 50, for example, indicates that half of the volume is in droplet sizes smaller than 50 microns, and half the volume is in droplet sizes larger than 50 microns.
A micron is 1/1000 millimeter, or about 1/25,000 of an inch. In comparison, a drop of water is about 250 to 300 microns in size, a human hair is about 100 microns in diameter. Droplets 50 microns and less are generally considered to be aerosol droplets. The range and size of droplets in any given spray has tremendous influence on coverage, volume of spray used, retention, and runoff. When droplets greater than 150 microns strike target surfaces, they become flattened, but their kinetic energy is such that they retract and bounce away. Small droplets are better retained as they lack the kinetic energy to overcome surface energy and viscous changes that occur on impact and do not bounce away.

Optimum Droplet Size

The optimum size is generally considered to be between 40 and 100 microns. Droplets in this range cover more surface area, require lower volumes, are less susceptible to bounce back and runoff than those larger than 100 microns. The surface area of a liquid is greatly increased when broken into small droplets. The volume needed to cover target surface decreases proportionally with droplet size. Even small changes in droplet diameter make big differences in droplet weight. An increase in droplet diameter from 150 microns to about 190 microns doubles the droplet weight. An increase in droplet diameter from 150 microns to about 240 microns increases the weight 4 times. Doubling the diameter to 300 microns increases its weight, and also its volume, by 8 times.

Charged vs Uncharged Droplets
When droplets are uncharged, neither the droplets nor the target surface has any influence on the other. Sprayed droplets are principally influenced by forces generated by the spraying device (pressure, air flow) and by external forces of gravity and air drag. Uncharged droplets are more susceptible to air currents in the spraying area while charged droplets are less influenced by air currents.
An electrostatic sprayer induces an electrical charge onto droplets creating an attractive force between charged droplets and targets. This electrostatic force overrides gravity and inertia to pull droplets out of their paths – up, down or sideways – to the closest surface.
To compare influence, the electrostatic force on charged droplets is up to 75 times greater than the force of gravity. Electrostatically charged droplets are also influenced by the sprayer’s mechanical forces, however, once they reach the vicinity of the target, electrostatic forces take over to a very large degree.
In water based coatings, the water carries the electrical charge. Charged sprays, unlike uncharged sprays, resist coalescing into larger droplets both in transit and deposition. As each charged droplet is deposited on a surface, electrical charges balance out at that site, making it no longer attractive to other charged droplets. The droplets following are pulled instead to the rest of the surfaces which remain attractive.

Atomization & Induction Charging
A typical droplet of spray from a conventional air-blast applicator is around 250 microns in size. A typical droplet of spray from an electrostatic sprayer is around 40 microns. In the nozzle of an electrostatic sprayer the coating liquid passes in very close proximity (but does not contact) a positively charged electrode, inducing a negative charge (excess electrons) in the grounded liquid stream. The stream of coating liquid, with its excess electrons, is combined in a shearing action with a near sonic velocity jet of air, shattering (atomizing) the coating liquid into droplets 30 to 40 microns in size.

Shattering the liquid stream breaks the droplets free from the grounded liquid stream and traps the excess of electrons. As the electrically charged droplets exit the nozzle, they create a charged field plume that is strongly attracted to the targeted object. The charge on the atomized droplets remains until discharged on a grounded object or the water content of the droplet evaporates.
Induction charging is based on the principle that a field charge, created within the plume, is presented to a grounded target. It is this field charge the plume creates that really makes an electrostatic sprayer so effective. The charge is small, but the force attracting the coating plume to the target is substantial, up to 75 times the force of gravity.

As the target sits with a neutral potential the proximity of the field charge induces a strong attraction. The droplets actually reverse direction and coat the underside, backside and crevasses of the target, creating an “electrostatic wraparound.” In comparison, a 250 micron droplet simply runs off a target and is largely wasted.

Additionally there is the second half of Coulomb’s Law, that “like” charges repel. Since all of the coating droplets leaving the nozzle have the same charge, they cannot coalesce into large droplets, which again fall off the target. At the same time, the swirling droplets are not attracted to areas already coated and continue to seek out uncovered surface areas until there is uniform coverage (disposition) across the entire target. This results in a consistent, uniform coating, no drips, no runs and no uncoated areas.

What Matters Most
Microscopic organisms are usually hidden in deep cracks and crevasses inside or on the undersides of surface areas, and continue to survive if coverage is spotty. The extraordinary bonding of the coating to the target and the complete, uniform coverage achieved are distinct advantages of Microbecide® electrostatic sprayers. Experience is showing it is not just what is applied but how a coating is applied that matters most.

Here is a video showing the mechanism of our electrostatic spraying technology

Notice the Beauty of the spray of the wrapping effect compared to a single dimensional spray by a normal spray paint gun

Here is Another Video which Shows the Application Of Arc Flash’s Nano Tio2 at the Diamond Building of Putrajaya

With this application system we can achieve;
1. Wider Coverage
2. Minimum Product Wastage
3. Better Bonding Strength Of the Product on the Surfaces
4. Great Speed during the Application Process
5. Great Flexibilities to reach difficult sectors during Application

to find out more, lets log onto our electrostatic sprayer supplier’s website at microbecides

Lets Compare it with the conventional way of applying the coats.

you will notice:
1. A lot of hard work to make sure that the surfaces are fully applied
2. Difficulties to reach unreachable sectors
3. A lot of Product Wastage
4. Slow in Application Speed

note: the video used is for the purpose of comparisons only

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