Dual-Network Structured Nanofibrous Membranes with Superelevated Interception Probability for Extrafine Particles

Airborne particulate matter (PM) pollution has caused a public health threat, including nanoscale particles, especially with emerging infectious diseases and indoor and vehicular environmental pollution. However, most existing indoor air filtration units are expensive, energy -intensive, and bulky, and there is an unavoidable trade-off between low -efficiency PM0.3/pathogen interception, PM removal, and air resistance. Herein, we designed and synthesized a two-dimensional continuous cellulose-sheath/net with a unique dual-network corrugated architecture to manufacture high-efficiency air filters and even N95 particulate face mask. Combined with its sheath/net structured pores (size 100-200 nm) consisting of a cellulose framework (1-100 nm diameter), the cellulose sheath/net filter offers high-efficiency air filtration (>99.5338%, Extrafine particles; >99.9999%, PM2.5), low-pressure drops, and a robustness quality factor of >0.14 Pa-1, utilizing their ultralight weight of 30 mg/m2 and physical adhesion and sieving behaviors. Simultaneously, masks prepared with cellulose-sheath/net filters are more likely to capture and block smaller particles than the N95 standard. The synthesis of such materials with their nanoscale features and designed macrostructures may suggest new design criteria for a novel generation of high-efficiency air filter media for different applications such as personal protection products and industrial dust removal.

Automated summary

Airborne particulate matter pollution, including nanoscale particles, has become a public health threat due to emerging infectious diseases and indoor and vehicular environmental pollution. However, current indoor air filtration units face limitations in terms of cost, energy consumption, and size, result in trade-offs between PM0.3/pathogen interception, PM removal, and air resistance. In this study, a two-dimensional continuous cellulose-sheath/net with a unique dual-network corrugated architecture was designed and synthesized to achieve high-efficiency air filtration and even surpass the performance of N95 particulate face masks.