TriboNano shield – Scalable manufacturing anti-smog multi-level structured nanofiber air filter with co-enhanced purification performance towards self-powered window screen

材料科学 摩擦电效应 透气比表面积 纳米纤维 静电纺丝 过滤(数学) 多孔性 复合材料 复合数 纳米技术 光电子学 图层(电子) 数学 统计 聚合物
作者
Mengjuan Zhou,Liyun Ma,Zhiyong Zhou,Qingli Xu,Songlin Zhang,Zi Hao Guo,Chengdong Xiong,Wenbin Guo,Rongwu Wang,Swee Ching Tan,Xiong Pu,Xiaohong Qin
出处
期刊:Nano Energy [Elsevier BV]
卷期号:121: 109230-109230 被引量:22
标识
DOI:10.1016/j.nanoen.2023.109230
摘要

Nanofiber air filter has garnered tremendous attention due to large specific surface area, large porosity, highly interconnected aperture channels, etc. However, its unitary interlayer structural construction encounters limitation of filtration performance with a low yield. Here, we architect a triboelectric-induced multi-level interlaminar composite structure-based nanofiber window screen (T-MLNS), manufactured continuously utilizing free surface electrospinning. Subjoined with triboelectric charges (active type), T-MLNS possesses co-enhanced adsorption capacity of aerosols. Additionally, MLNS is constructed with finer fibrous layers for precise filtration and coarser fibrous layers in the middle facilitating airflow passing, under physical mechanisms (passive type). Significantly, three-dimensional theoretical models are innovatively employed with numerical simulation findings that multi-level structures present superb filtration performance than uni-structure ones. In the synergistic effect of the active and passive typed mechanisms, T-MLNS is prolonged service life for precise capture of ultrafine aerosols (Diameter: 0.26 µm) with enhanced filtration efficiency up to 99.9%. The integrated multi-zone structure design creates a pattern-shaped fiber mesh, resulting in prominent air permeability (~100 mm s-1), optical light transmission (> 60%), and robust mechanical properties. This combination of active and passive filtering self-powered window screens offers a unique concept for revolutionizing interior air quality in industrialization.
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