Second Batch Sold Out We are grateful for another overwhelming response. Like our first batch, we sold out our second batch in less than 10 days. We have limited our orders to warrant that our high quality standards can be met and to ensure on-time delivery. We are now working with our manufacturer to finalize details for our third batch. Be the first to get in line and join our waitlist! Meet Molekule, the world’s first molecular air purifier. After 20 years of research and development, a groundbreaking approach to clean air has arrived. Molekule breaks down harmful microscopic pollutants like allergens, mold, bacteria, viruses and even airborne chemicals. The path to pure air. It's time to come clean about the air you breathe. Indoor air is 5 times more polluted than outdoor air. 90% percent of your life is spent indoors. The EPA states indoor air is up to 5x more polluted than outdoor air. Pollutants are trapped inside where they concentrate and multiply to harmful levels.

Studies have shown that indoor pollution contributes to a wide variety of health issues for everyone, not just asthma and allergy sufferers.clean environment air duct cleaning It’s time to come clean about the air you breathe.what's the best air purifierPollutants are being trapped inside where they concentrate and multiply to harmful levels. ipad air glass cleaner What’s in your air? While everyone is aware of dust, pollen, and pet dander, the pollutants that can cause us the most harm are microscopic like mold, viruses, bacteria, and gaseous chemicals. Molekule doesn’t capture pollutants, it eliminates them. Independent lab studies have shown 3.9 million E.Coli completely eliminated in a single pass through a Molekule system.

E.Coli bacterium in the air (partial molecular structure shown). An oxidized E.Coli bacterium broken down into harmless molecules. The science of clean air. Molekule disassembles and converts pollutants into harmless elements that are meant to be in the air. This is done by creating a catalytic reaction that happens when a nanoparticle-coated filter is activated by light. Pollutants are broken down into their most basic molecular components, making them safe for us to breathe. An oxidized E.Coli bacterium broken down into harmless molecules (carbon dioxide, water, and nitrogen). What our beta testers have to say. What if you woke up feeling refreshed, clear-headed and ready to tackle the day? We put our technology to the test and gave it to real people. See trial results from real people. Improvement in Average Total Symptoms “These home air purifiers are designed to reduce the symptoms of those with asthma and allergies.” “A take-no-prisoners approach to cleaner indoor air”

“This sleek air purifier breaks down pollutants at the molecular level” See more Molekule press You've been added to the waitlist! Thanks for your patience. Well notify you as soon as we have more units available. There was an error processing your email. Please try again, or try our wait list button at the top. The Science Behind The Plant Air Purifier OverviewRecommended Plants for UseWhere to Use The Plant Air PurifierThe Science Behind The Plant Air PurifierMeet the Inventor of the Plant Air Purifier Technology - Dr. B. C. “Bill WolvertonDr. B.C. Wolverton conducted more than 30 years of research as a civilian scientist with the U.S. military and as a Senior Research Scientist with the National Aeronautics and Space Administration (NASA).  His military research focus was developing a means to protect against and destroy toxic chemicals and pathogenic microbes.  Dr. Wolverton’s NASA research was directed toward the development of a closed ecological life support system for long-term space habitation.

Discover More About Wolverton Enviromental Services >>The latest research by Dr. Wolverton testing the new Compact Plant Air Purifier - Dec 2015We have conducted a series of sealed chamber studies with the new Compact Plant Air Purifier. All test results were sampled for formaldehyde removal at varying concentrations. Tests runs were conducted both with the fan off and in operation. We also run control studies to verify that there were no chamber leaks. Learn about the amazing results >>NASA Research and the Story Behind the “Sick” FEMA TRAILERS and How Plants Repaired the AirIn 2006, the Sierra Club contacted Dr. Wolverton to install his portable high efficiency plant purifier into a FEMA trailer with high concentrations of formaldehyde.  Within a few days the plant air purifier reduced the level of formaldehyde in the trailer from 0.18 parts per million to 0.03 parts per million in the trailer - taking the toxin level from unsafe to within the legal limit of 0.05 ppm determined by the World Health Organization.

Hydroculture is a method of growing plants without the use of soil.  This method of growing is sometimes referred to as ‘passive hydroponics’.  Plants are supported in expanded clay pellets or specially developed ceramic stone.  The wicking action of the growing media supplies the plants roots with moisture and minerals. How the Plant Air Purifier WorksThe Plant Air Purifier® uses a common houseplant in hydroculture to clean the air.  This is the capability of the Plant Air Purifier®: one Plant Air Purifier® has the cleaning power of 60 or more standard houseplants. How Do Toxins Get Into Your Home and Other Buildings?Toxins accumulate in buildings from many sources: building materials (wood, paint, carpeting, flooring, etc.) furniture, as well as cleaning and beauty products.  Heating/cooling systems may also contribute to toxic exposure.Katherine Wu, 14, takes an annual road trip to Florida with her family, where they usually visit an amusement park, her favorite so far being Universal’s Wizarding World of Harry Potter.

It’s at least a 14-hour drive from their home in Montgomery County. Katherine noticed that her mother would have to regularly check in with her father during those late-night highway drives, expecting a coherent reply that ensured he was still awake and alert enough to keep going. Moments such as that sparked her idea for “A Driver’s Companion,” a small device that monitors a driver’s brain waves to proactively determine drowsiness and, in the event a driver begins to drift off, alerts them with audio and light signals. A budding scientist and rising ninth-grader at Montgomery Blair High School in Silver Spring, Md., Katherine created a prototype of her device, submitted a video explaining the research behind it and earned a spot as one of 10 finalists in the 2014 Discovery Education 3M Young Scientist Challenge. Students from across the country in fifth through eighth grades submitted videos about their scientific solutions to everyday problems, and finalists were paired with a 3M scientist mentor to help them fine tune their prototypes.

The students work with their mentors to learn more about the scientific process. Katherine is one of three Washington-area finalists, the other two coming from Virginia: Ana Humphrey, 13, of Alexandria, whose project focuses on preventing the spread of disease, and Jai Kumar, 12, from Loudoun County, who has developed a distinctive air-purification system. Katherine said her project is the beginning of what she hopes is a career in the Science, Technology, Engineering and Math (STEM) fields. She wants to be able to use such work to make a difference. “I really like how you can learn something and use that to help society,” she said. For her project on proactive drowsiness detection, Katherine put together a prototype using a headset and a credit-card-size computer motherboard called Raspberry Pi. She then programmed an algorithm to read a driver’s brain waves and determine levels of drowsiness. Her father, Haibin Wu, said Katherine took an introductory online course in electrical engineering and computer science from MIT to help her with the project.

Katherine has been working with mentor Jesse Miller to develop the device. Miller, a product developer for 3M’s Food Safety Department, said that while other known devices meant to detect driver drowsiness rely on eye blinks, he said he believes Katherine’s consideration of brain waves makes her project stand out. “It’s got a huge advantage on the stuff that’s out there,” Miller said, adding that he believes Wu should think about developing her prototype into a marketable product that could really benefit drivers. “It’s a pretty neat idea.” Saving lives also is big motivator for Ana Humphrey. In an effort to prevent cholera outbreaks, Ana, a rising eighth-grader at Alexandria’s George Washington Middle School, developed a calculator that enables her to measure how much wetland must be planted in an area to reduce bacteria to safe levels. The science competition touched on two things Ana loves: Making videos, and the field of science and engineering. When she got the phone call naming her a finalist, she had to put the phone aside as she screamed for joy.

“I tried to suppress it, but I’m not sure how well I did,” Ana said. This summer, Ana has been doing more research and keeping in touch with her mentor Raha Been, a 3M senior research scientist who oversees the development of wound-care technologies. Been challenges Ana to practice problem solving. “She does all the innovating herself,” Been said. “I don’t give her the answers.” Been said Ana’s calculator could serve areas affected by hurricanes and could be helpful in developing countries at risk of contaminated water. A global issue also inspired Jai Kumar’s project. Jai’s grandparents live in India, where high levels of air pollution often prevent them from opening the windows in their home. This prompted Jai, a rising seventh-grader at J. Michael Lunsford Middle School, to make a solar-powered air purifier that ionizes air and traps dust in mesh before it can enter a home. His experience in tinkering with electrical devices started when he was about 5, after his parents bought him an electronics kit.