Of course scented products (air fresheners, scented candles, scented wax melts, scented oil diffusers, disinfectants, floor cleaners, personal care products) emit air pollution. Study after study has shown that for years.
A recent study further found that scented products release nanoparticles into the air that are breathed in, then travel to the lungs, and eventually to other organs in the body. Scientists say the air inside from using scented products can be worse (more polluted) than the air outside!
Scented products emit chemicals that evaporate easily (these are volatile chemicals or VOCs), which react with indoor ozone, and this generates very tiny airborne nanoparticles. The researchers stated that: "... the indoor atmospheric nanoparticle concentrations from noncombustion-based scented wax melts were similar to those emitted by combustion-based scented candles, gas stoves, diesel engines, and natural gas engines."
And yes, there are long-term health effects from breathing in indoor air pollution, especially on the respiratory tract. Besides respiratory diseases (e.g., asthma, lung effects), there are negative effects on the cardiorespiratory system.
Bottom line: Avoid fragrances and scented products! Avoid scented wax melts! Avoid aromatherapy products! Best is using unscented products. Also, open windows now and then for a few minutes (or more) to air out your home.
From Science Daily: Air inside your home may be more polluted than outside due to everyday chemical products
When you walk through a pine forest, the crisp, fresh scent is one of the first things you notice.
But bringing that pine scent or other aromas indoors with the help of chemical products -- yes, air fresheners, wax melts, floor cleaners, deodorants and others -- rapidly fills the air with nanoscale particles that are small enough to get deep into your lungs, Purdue University engineers have found over a series of studies.
These nanoparticles form when fragrances interact with ozone, which enters buildings through ventilation systems, triggering chemical transformations that create new airborne pollutants.
"A forest is a pristine environment, but if you're using cleaning and aromatherapy products full of chemically manufactured scents to recreate a forest in your home, you're actually creating a tremendous amount of indoor air pollution that you shouldn't be breathing in," said Nusrat Jung, an assistant professor in Purdue's Lyles School of Civil and Construction Engineering.
Nanoparticles just a few nanometers in size can penetrate deep into the respiratory system and spread to other organs. Jung and fellow civil engineering professor Brandon Boor have been the first to study nanoscale airborne particle formation indoors and compare it to outdoor atmospheric processes.
"To understand how airborne particles form indoors, you need to measure the smallest nanoparticles -- down to a single nanometer. At this scale, we can observe the earliest stages of new particle formation, where fragrances react with ozone to form tiny molecular clusters. These clusters then rapidly evolve, growing and transforming in the air around us," said Boor, Purdue's Dr. Margery E. Hoffman Associate Professor in Civil Engineering.
In a "tiny house lab" -- a dedicated residential lab space for indoor air quality research -- Jung and Boor are using the latest industry-developed air quality instruments to track how household products emit chemicals that evaporate easily, called volatile chemicals, and generate the tiniest airborne nanoparticles.
Called the Purdue zero Energy Design Guidance for Engineers (zEDGE) lab, the tiny house has all the features of a typical home but is equipped with sensors for closely monitoring the impact of everyday activities on a home's air quality. Jung led the design of the lab, which was built in 2020 as the first of its kind.
With this unprecedented level of detail and accuracy, Jung and Boor have made discoveries suggesting that many everyday household products used indoors may not be as safe as previously assumed.
Even though it's yet to be determined how breathing in volatile chemicals from these products impacts your health, the two have repeatedly found that when fragrances are released indoors, they quickly react with ozone to form nanoparticles. These newly formed nanoparticles are particularly concerning because they can reach very high concentrations, potentially posing risks to respiratory health.
"Our research shows that fragranced products are not just passive sources of pleasant scents -- they actively alter indoor air chemistry, leading to the formation of nanoparticles at concentrations that could have significant health implications," Jung said. "These processes should be considered in the design and operation of buildings and their HVAC systems to reduce our exposures."
Pleasant scents from chemical products create air pollution inside your home
In a recently published paper, the pair found that scented wax melts, typically advertised as nontoxic because they are flame-free, actually pollute indoor air at least as much as candles.
Wax melts and other scented products release terpenes, the chemical compounds responsible for their scents. Since wax melts contain a higher concentration of fragrance oils than many candles, they emit more terpenes into indoor air.
It's the terpenes in these products that rapidly react with ozone, triggering significant nanoparticle formation. In fact, the nanoparticle pollution from wax melts rivals that of candles, despite the absence of combustion. These findings highlight the need to study noncombustion sources of nanoscale particles, such as fragranced chemical products. Jung and Boor found in another study that essential oil diffusers, disinfectants, air fresheners and other scented sprays also generate a significant number of nanoscale particles.
But it's not just scented products contributing to indoor nanoparticle pollution: A study led by Boor found that cooking on a gas stove also emits nanoparticles in large quantities.
Still, scented chemical products match or surpass gas stoves and car engines in the generation of nanoparticles smaller than 3 nanometers, called nanocluster aerosol. Between 100 billion and 10 trillion of these particles could deposit in your respiratory system within just 20 minutes of exposure to scented products.
Jung and Boor also use the tiny house lab to study how a range of other everyday household activities could impact a home's air quality, such as hair care routines. Jung and her students have found that several chemicals, particularly cyclic volatile methyl siloxanes -- which are ubiquitous in hair care products -- linger in the air in surprising amounts during and after use. In a single hair care session at home, a person can inhale a cumulative mass of 1-17 milligrams of these chemicals.