When schools improve air quality, students perform better. After portable air purifiers were installed in Los Angeles classrooms following a gas leak, test scores jumped dramatically—math scores increased by 0.20 standard deviations and English by 0.18. These gains are comparable to reducing class sizes by one-third, achieved at less than 1% of the cost.
This wasn't an isolated finding. Randomized controlled trials across multiple countries consistently demonstrate that cleaner classroom air delivers measurable benefits:
Students score higher on standardized tests and cognitive assessments when breathing filtered air
Absenteeism drops 12-55% when air purifiers reduce respiratory infections and asthma triggers
Lung function improves, airway inflammation decreases, and blood pressure drops with sustained air filtration
Improved air quality reduces staff sick days and turnover
Fine particulate matter doesn't just irritate lungs—it crosses into the bloodstream, triggers systemic inflammation, and can breach the blood-brain barrier. Students breathing cleaner air think faster, remember more, and make fewer errors.
Beyond cognitive benefits, reducing airborne disease keeps students and teachers in school for more days each year, cutting the chronic absenteeism that disrupts learning and strains families. Read the supporting research →
Schools constitute one of the world's largest infrastructure networks. There are approximately 5.9 million schools globally. In India and China alone, roughly 248 million and 291 million students, respectively, attend class each day; Nigeria has another 30 million primary‑aged pupils. In the United States, 75 million students learn in buildings covering 13.6 billion square feet—about 14 % of the nation's non‑residential floor space. A small number of large school districts educate a disproportionate share of students; partnering with just 2 % of districts could give clean air to one third of all U.S. children.
Low‑income communities and developing countries bear the brunt of indoor pollution. Schools near highways and industrial zones have far higher particulate exposures, exacerbating asthma and learning disparities. Yet portable air cleaners and do‑it‑yourself designs (like Corsi‑Rosenthal boxes) deliver clean air at a fraction of the cost of traditional HVAC upgrades, making them scalable everywhere.
Beyond education gains, this intervention addresses a deadly global health crisis: air pollution and respiratory infections kill over 11 million people annually, with the burden falling overwhelmingly on low- and middle-income countries. South Asia experiences 2.6 million air pollution deaths yearly, while over 40% of child respiratory deaths in sub-Saharan Africa are attributed to poor air quality. India alone accounts for 26% of global tuberculosis cases.
By focusing on schools—where 5.9 million facilities serve hundreds of millions of students globally—we can protect children from respiratory infections that claim 3.5 million lives each year while reducing their exposure to the air pollution that kills 8 million more.
The beauty of this solution is its scalability: air purifiers work equally well in well-resourced American suburbs and under-resourced schools in high-burden regions like Nigeria, Pakistan, and Bangladesh, making it a rare intervention that can deliver transformative health impact wherever children learn.