Continuous air purification by aqueous interface filtration and absorption

The adverse impact of particulate air pollution on human health(1,2) has prompted the development of purification systems that filter particulates out of air(3-5). To maintain performance, the filter units must inevitably be replaced at some point, which requires maintenance, involves costs and generates solid waste(6,7). Here we show that an ion-doped conjugated polymer-coated matrix infiltrated with a selected functional liquid enables efficient, continuous and maintenance-free air purification. As the air to be purified moves through the system in the form of bubbles, the functional fluid provides interfaces for filtration and for removal of particulate matter and pollutant molecules from air. Theoretical modelling and experimental results demonstrate that the system exhibits high efficiency and robustness: its one-time air purification efficiency can reach 99.6%, and its dust-holding capacity can reach 950 g m(-2). The system is durable and resistant to fouling and corrosion, and the liquid acting as filter can be reused and adjusted to also enable removal of bacteria or odours. We anticipate that our purification approach will be useful for the development of specialist air purifiers that might prove useful in a settings such as hospitals, factories and mines.

Automated summary

This study demonstrates a novel air purification method that uses an ion-doped conjugated polymer-coated matrix infiltrated with a functional liquid. The system achieves efficient, continuous and maintenance-free air purification with high efficiency and dust-holding capacity. It is durable, resistant to fouling and corrosion, and the liquid as a filter can be reused and adjusted for additional functions.