There’s more in your air than you think. Allergens, chemicals, bacteria, mold, and other airborne offenders are all waiting to make you sniffle, sneeze or worse.
Pollen
Dust mites
Pet dander
Viruses
VOCs
Gases from smoke
Mold
And more
Not one, but three layers of protection. True HEPA captures 99.97% of small particles while light-activated PECO technology destroys organic pollutants and a layer of carbon removes odors and gases.
Not one, but three layers of protection. True HEPA captures 99.97% of small particles while light-activated PECO technology destroys organic pollutants and a layer of carbon removes odors and gases.
FDA-Cleared
CARB CERTIFIED
APP-ENABLED
WORKS WITH ALEXA
–Melissa D.
Keep an eye on your air quality with daily and weekly air history stats. Track changes to particle levels in five-minute increments or going back as far as the previous four weeks.
Keep an eye on your air quality with daily and weekly air history stats. Track changes to particle levels in five-minute increments or going back as far as the previous four weeks.
Auto Protect mode enables Air Mini+ to automatically adjust fan speeds when it senses spikes in particle levels. Just sit back and let Air Mini+ take care of the air for you.
The Molekule Air Mini+ air purifiers are devices intended for medical purposes that are used to capture 95% of particulate matter and destroy bacteria and viruses by exposure to ultraviolet radiation when operated in manual mode on fan speed 3 or higher.
The Molekule Air Mini+ air purifiers have both been demonstrated to destroy the following MS2 bacteriophage bioaerosol entrained on the filter of the subject device under the following exposure/working conditions:
The Molekule Air Mini+ air purifiers are devices intended for medical purposes that are used to capture 95% of particulate matter and destroy bacteria and viruses by exposure to ultraviolet radiation when operated in manual mode on fan speed 3 or higher.
The Molekule Air Mini+ air purifiers have both been demonstrated to destroy the following MS2 bacteriophage bioaerosol entrained on the filter of the subject device under the following exposure/working conditions: