Sunlight-Driven Self-Cleaning Ultrafine Particulate Matter Filter with Antibacterial Activity.
Jun Tae KimJungsun KwonHyunjung LeeChansol KimGeon Gug YangGang San LeeChan Woo LeeJin Goo KimSujin ChaHee-Tae JungSuchithra Padmajan SasikalaSang Ouk KimPublished in: ACS nano (2024)
Air pollution by particulate matter (PM) and airborne pathogens causes severe health problems in the human body. Presently, popular disposable air filters yield huge waste and have a fatal impact on the environment. Postuse cleaning of air filters also leads to secondary air and water pollution. Here, we report a sunlight-driven self-cleaning PM filter by coupling a full-solar-spectrum-active photocatalyst comprising up-conversion nanoparticles (UCNPs) decorated with semiconductor iron(III) oxide (UCNP@α-Fe 2 O 3 ) shells stabilized upon graphene functionalized borosilicate fibrous membrane (rGO-BF). While rGO-BF ensures high PM adsorption, UCNP@α-Fe 2 O 3 (NP) enables self-photodegradation of adsorbed PM under abundant sunlight and subsequent membrane regeneration, while preventing secondary air or water pollution. Rational surface chemistry and optimal microstructure enable our filters to remove >99% of PM 2.5 under deplorable air-quality conditions. Moreover, our filter shows excellent antibacterial activity toward E. coli and S. aureus , demonstrating its potential for practical utilization in face masks, air filtering devices, and protective medical wear. This work successfully suggests an intriguing design platform for self-sustainable zero-waste air filter membranes.
Keyphrases
- particulate matter
- air pollution
- healthcare
- lung function
- reduced graphene oxide
- heavy metals
- mental health
- public health
- stem cells
- visible light
- endothelial cells
- room temperature
- multiple sclerosis
- climate change
- highly efficient
- antimicrobial resistance
- health information
- quantum dots
- polycyclic aromatic hydrocarbons
- drug induced
- ionic liquid