Han Zhang, Luna Jia, Pan Li, Lu Yu, Yibo Liu, Weiran Zhao, Hao Wang, Bo Li.Mass Production of Hierarchically Designed Engine-Intake Air Filters by Multinozzle Electroblow Spinning. Yibo Liu, Chao Jia, Pan Li, Han Zhang, Luna Jia, Lu Yu, Rong Wang, Dongkui Liu, Hui Wu, Bo Li.ACS Applied Materials & Interfaces 2022, 14 Biomimetic Fibrous Leaf-Vein Membrane Enabling Unidirectional Water Penetration and Effective Antibacterial PM Filtration. Ting Dong, Yue Hua, Guangting Han, Yuanming Zhang, Shan Chi, Yanming Liu, Cui Liu, Ching-Wen Lou, Jia-Horng Lin.Application of 2D Materials for Adsorptive Removal of Air Pollutants. Jun Tae Kim, Chan Woo Lee, Hong Ju Jung, Hee Jae Choi, Ali Salman, Suchithra Padmajan Sasikala, Sang Ouk Kim.
Air-Conditioned Masks Using Nanofibrous Networks for Daytime Radiative Cooling.
Hui Liu, Jianyong Yu, Shichao Zhang, Bin Ding. This article is cited by 72 publications. This work should serve as a source of inspiration for the design and development of high-performance fibrous materials for various filtration and separation applications. The resulting ULTRA NET filters exhibit integrated properties of desirable pore structure yet maintaining strikingly low thickness (∼350 nm) and free-standing capability, 99.98% removal efficiency, and <0.07% of atmosphere pressure for PM 0.3 filtration at ∼85.6% transmittance, which enable them to serve as a multifunctional filter against PMs either in rigid solid or in soft oil forms and even biohazard pathogens. By controlling the ejection, deformation, and phase separation of charged droplets from a Taylor cone, our approach allows continuously welded two-dimensional nanonetworks (∼20 nm fiber diameter) to assemble into filters on a large scale. We report a scalable strategy to create ultralight, thin, rubbery, self-assembled nanoarchitectured networks (nanonetworks) with high-efficiency and transparency (ULTRA NET) as air filters using capacitive-like electronetting technology. Most present air filters are heavy, bulky, and nontransparent and typically have inevitable compromise between removal efficiency and air permeability. 
Particulate matter (PM) pollution is a significant burden on global economies and public health.
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