Litcius/Paper detail

Highly Efficient Fabrication of Biomimetic Nanoscaled Tendrils for High-Performance PM<sub>0.3</sub> Air Filters

Tienan Zhao, Yuanqiang Xu, Mengwei Wu, Ying Li, Jiajia Ma, Hui Li, Yuansheng Zheng, Yongchun Zeng

2024Nano Letters20 citationsDOI

Abstract

Particulate matter pollution has become a serious public health issue, especially with the outbreak of new infectious diseases. However, most existing air filtration materials face challenges such as being too bulky, having high resistance, and a trade-off between filtration efficiency and air permeability. Here, a unique electro-blown spinning technique is used to prepare an air filter made of biomimetic nanoscaled tendril nonwovens (Nano-TN). The introduction of an airflow field significantly increases the whipping frequency and the strain mismatch of composite jets, achieving large-scale and highly efficient preparation of Nano-TN. The resultant Nano-TN has an ultrahigh porosity (97%) and a small pore size (2.9 μm). At the same filtration level, its air resistance is 37% lower than that of traditional straight nanofibrous nonwovens and has a higher dust-holding capacity. Moreover, compared with traditional three-dimensional air filters, the Nano-TN filter is thinner, offering tremendous application prospects in various environmental purification and personal protection fields.

Topics & Concepts

Air filterMaterials scienceFiltration (mathematics)Air permeability specific surfaceAirflowPorositySpinningNanotechnologyFabricationNano-Composite materialParticulatesMechanical engineeringEngineeringChemistryStatisticsPathologyOrganic chemistryLayer (electronics)MedicineInletMathematicsAlternative medicineAerosol Filtration and Electrostatic PrecipitationElectrospun Nanofibers in Biomedical ApplicationsAerodynamics and Fluid Dynamics Research