Because We Should Care About People’s Health and the Environment
Make your home or business healthier, happier, fresher, cleaner, safer, brighter, odorless, and allergen-free with these simple to use anti-bacterial and anti-pollutant lightbulbs from Pure-Light! Build upon improved NASA technology developed on the International Space Station, the technology behind Pure Light has been proven to kill 99.9% of bacteria, viruses, fungi, and mold, including:
- Flesh-Eating Necrosis
- Legionnaires’ disease
- Cold and Flu
- Many vaccine resistant “Super-Diseases”
In addition, Pure-Light antibacterial lightbulbs get rid of odors and smoke such as tobacco and fruit. These antibacterial lamp lights also break down toxic indoor pollutants like formaldehyde, carbon monoxide, methane, benzene, and other allergens.
- Destroys odors without masking them
- Eco-friendly, safe, odorless, non-toxic
- Helps comply with indoor air quality regulations
- 9 Watt, Daylight Bright, Super Green Technology
New patent-pending technology allows the process to work indoors for up to 10 years.
Pure Light antibacterial lightbulbs fit into a standard light bulb socket as a replacement for 60 watt light bulbs.
The Science Behind Pure-Light Antibacterial & Anti-Pollutant Light Bulbs
Nature uses a process called Titanium Dioxide Photocatalysis where sunlight changes water molecules into super oxygen molecules that clean the air from deadly pathogens and toxic pollutions. This natural process is what keeps the earthâ€™s atmosphere from being overpowered by disease and pollution. NASA is currently using a version of this technology to purify and clean the air on the International Space Station.
Pure-Light has taken the Nature/ NASA technology, improved it, made it last longer and has adapted it to specially prepared light bulbs that can be used indoors or outdoors. Specifically, Pure-Light uses a new patent pending process that involves coating a light bulb with an ultra- thin, transparent coating of a new proprietary enhanced Titanium Dioxide formula (Z-TiO2 ) that then reacts with light to produce super oxygen molecules that dissolve viruses, bacteria, mold and breaks down toxic VOCs. (Titanium Dioxide (TiO2) is one of the more common elements in the world and is rated as inert and non-toxic (MSDS rating). Because it is non-toxic, Ti02 is used in a large variety of items including vitamins, cosmetics, food coloring, paint, and sunscreens.)
As air comes near the coated light bulbs (approximately 8ftâ€”12 ft) it gets cleansed of these bacteria, viruses, mold, and pollutants. The air also gets deodorized as well since almost all odors are an organic compound. There is also a secondary Pure-Light effect on the surfaces of items near the light bulb, such as kitchen/bathroom counters, dishes, stoves, cutting boards, door knobs, etc.
The two special super oxygen molecules Pure-Light bulbs produce are called Superoxide (O-2) and Hydroxyl Ion (HO). These two super oxygen molecules provide a triple “action”… two actions against viruses and bacteria, and another “action” against VOCs.
Superoxide (O-2), or Super Oxygen, is actually produced in the human body in large quantities by white blood cells and is used by the immune system to kill invading microorganisms. â€‹Superoxide (O-2) inside the body, or in the air, combines with a microorganism giving it essentially a boost of oxygen. Good cells thrive with the extra oxygen while viruses and bacteria are killed by the extra oxygen. Superoxides are also used in firefighters’ oxygen tanks and divers rebreather systems in order to provide a readily available source of oxygen.
The Hydroxyl Ion (HO) is often referred to as the “detergent” of the atmosphere because it reacts with many pollutants called VOCs (Volatile Organic Compounds), often acting as the first step to their removal. It is much more effective at this action than ozone. Hydroxyl radicals also attack the porous cell walls of bacteria and viruses which destroys them through the process known as cell lysing. Human, animal and plant cells are designed to be in the sunlight and have cell walls that are less porous and are not harmed by atmospheric hydroxyl radicals.