润湿
膜
驻极体
过滤(数学)
材料科学
静电纺丝
化学工程
吸附
复合材料
纳米纤维
纤维
纳米技术
聚合物
化学
有机化学
生物化学
统计
工程类
数学
作者
Ming Yang,Yao Ni,Roman A. Surmenev,Xinxin Zhang,Jianyong Yu,Shichao Zhang,Bin Ding
标识
DOI:10.1002/marc.202401058
摘要
Abstract Electrospun fibrous materials with fine fibers and small pores are fundamental for particulate matter (PM) filtration, addressing its harmful environmental and health impacts. However, the existing electrospun fibers are still limited to their sub‐micron diameters and unstable surface electrostatic effect, leading to deteriorated filtration performance after prolonged storage or wetting. Herein, the study creates nanofibrous membranes with long‐time stable electrostatics by electret‐enhanced electrospinning. The phase separation and polarization of the charged jet are manipulated to achieve rapid stretch and strong electret. The obtained membrane exhibits nanosized structures with fiber diameters of ≈220 nm, pore size <1 µm, as well as robust surface potential of 0.4 kV. By virtue of the synergistic effects of sieving and adsorption, the nanofibrous membrane showed a remarkable PM 0.3 filtration efficiency of 96.6% and pressure drop of 140 Pa, even reaching the N90 standard after five wetting cycles. The design of such durable membranes will offer a new sight in the functional filtration materials.
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