Spider‐Web‐Inspired PM<sub>0.3</sub> Filters Based on Self‐Sustained Electrostatic Nanostructured Networks

Zhang, Shichao; Liu, Hui; Tang, Ning; Zhou, Sheng; Yu, Jianyong; Li, Bingyun; Ding, Bin

doi:10.1002/adma.202002361

Cited by 140 publications

(112 citation statements)

References 44 publications

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“…The filters enabled the high-efficiency (≈99.998%) capture of PM 0.3 with super lightweight while maintaining low air resistance (≈0.1% atmosphere pressure), and showed integrated properties of superhydrophobicity and desirable transparency (91%). Similarly, Zhang et al created spider-web-inspired PM 0.3 filters based on self-sustained electrostatic nanostructured networks using a unique electrospraying-netting technique [ 109 ]. The spider-web-inspired network generator (SWING) filters showed the exceptional long-range electrostatic property and exhibited high efficiency (>99.995% PM 0.3 removal), low air resistance (<0.09% atmosphere pressure) and high transparency (>82%) in combination with their steiner-tree-structured pores (size 200−300 nm) consisting of nanowires (diameter 12 nm).…”

Section: Electrospun Ultrafine Fibers For Reusable Face Masksmentioning

confidence: 99%

Electrospun ultrafine fibers for advanced face masks

Zhang

et al. 2021

Materials Science and Engineering: R: Reports

139

119

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The outbreak of Coronavirus Disease 2019 (COVID-19), which is caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), has triggered great global public health concern. Face masks are essential tools to reduce the spread of SARS-CoV-2 from human to human. However, there are still challenges to prolong the serving life and maintain the filtering performance of the current commercial mask. Filters composed of ultrafine fibers with diameter down to tens of nanometers have the potential to physically block viruses. With adjustable composition and nanostructures, the electrospun ultrafine fiber filter is possible to achieve other necessary functions beyond virus blocking, such as antiviral, transparent, and degradable, making it an important part of fighting the epidemic. In this review, beginning with the basic information of the viruses, we summarize the knowledge of masks and respirators, including the filtering mechanism, structure, classification, and standards. We further present the fabrication method, filtering performance, and reusable potential of electrospun ultrafine fiber-based masks. In the end, we discuss the development directions of ultrafine fibers in protective devices, especially their new functional applications and possible contributions in the prevention and control of the epidemic.

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Section: Electrospun Ultrafine Fibers For Reusable Face Masksmentioning

confidence: 99%

Electrospun ultrafine fibers for advanced face masks

Zhang

et al. 2021

Materials Science and Engineering: R: Reports

139

119

View full text Add to dashboard Cite

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“…More evidences have highlighted the importance of the airborne transmission of SARS-CoV-2, the causative agent of COVID-19. 12 Aerosols (< 5 μm) can suspend in the air for a long duration, accumulate in a closed environment, remain infectious (the half-life of SARS-CoV-2 in aerosols is 1.1 h), 3 and thus involve in the long-range transmission of airborne diseases. Therefore, there is an urgent need to control the airborne transmission of SARS-CoV-2.…”

Section: Introductionmentioning

confidence: 99%

“…The large porosity of electrospun air filters can also reduce air pressure drop in filtration as well as enhance the breathability of masks/respirators. 12 More importantly, electrospinning is operated under a strong electric field (i.e., 1-5 kV cm -1 ), and it produces filters with retained surface and volume charges that can last for weeks or even months. The presence of the retained charges can significantly promote aerosol capture through electrostatic attraction.…”

Section: Introductionmentioning

confidence: 99%

Development of Electrospun Nanofibrous Filters for Controlling Coronavirus Aerosols

Wang

Shen

Zhu

et al. 2021

Preprint

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Airborne transmission of SARS-CoV-2 plays a critical role in spreading COVID-19. To protect public health, we designed and fabricated electrospun nanofibrous air filters that hold promise for applications in personal protective equipment and indoor environment. Due to ultrafine nanofibers (∼300 nm), the electrospun air filters had a much smaller pore size compared to the surgical mask and cloth masks (a couple of microns versus tens to hundreds of microns). A coronavirus strain was used to generate aerosols for filtration efficiency tests, which can better represent SARS-CoV-2 than other agents used for aerosol generation in previous studies. The electrospun air filters showed excellent performance by capturing up to 99.9% of coronavirus aerosols, which outperformed many commercial face masks. In addition, since NaCl aerosols have been widely used in filtration tests, we compared the filtration efficiency obtained from the coronavirus aerosols and the NaCl aerosols. The NaCl aerosols were demonstrated as an eligible surrogate for the coronavirus aerosols in the filtration tests, when air filters and face masks with diverse pore sizes, morphologies, and efficiencies were used. Our work paves a new avenue for advancing air filtration by developing electrospun nanofibrous air filters for controlling SARS-CoV-2 airborne transmission. Moreover, the removal efficiency of the NaCl aerosols can be reasonably translated into understanding how air filters capture the coronavirus aerosols. Table of Contents

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“…The current preventive approaches include wearing personal protective masks, such as N95 respirators. In addition to the disease, fine particulate matter (PM) pollution has drawn worldwide attention due to its serious threat to public health, daily lives, visibility, climate, and ecosystems [ 2 , 3 , 4 ]. Electret filters are widely used in PM filtration and virus defense due to their cost-effectiveness, energy-saving features, high filtration efficiency, and low pressure drop [ 5 ].…”

Section: Introductionmentioning

confidence: 99%

Design of Polypropylene Electret Melt Blown Nonwovens with Superior Filtration Efficiency Stability through Thermally Stimulated Charging

et al. 2020

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Electret filters are widely used in particulate matter filtration due to their filtration efficiency that can be greatly improved by electrostatic forces without sacrificing the air resistance. However, the attenuation of the filtration efficiency remains a challenge. In this study, we report a novel strategy for producing an electret melt blown filter with superior filtration efficiency stability through a thermally stimulated charging method. The proposed approach optimizes the crystal structure and therefore results in the increased production probability of the charge traps. In addition, the re-trapping phenomenon caused by the thermal stimulation during the charging process can greatly increase the proportion of deep charge to shallow charge and improve the charge stability. A superior electret melt blown filtration material with a high filtration efficiency of 99.65%, low pressure drop of 120 Pa, and satisfactory filtration efficiency stability was produced after three cyclic charging times. The excellent filtration performance indicated that the developed material is a good air filtration candidate component for personal protection applications.

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Spider‐Web‐Inspired PM_0.3 Filters Based on Self‐Sustained Electrostatic Nanostructured Networks

Cited by 140 publications

References 44 publications

Electrospun ultrafine fibers for advanced face masks

Electrospun ultrafine fibers for advanced face masks

Development of Electrospun Nanofibrous Filters for Controlling Coronavirus Aerosols

Design of Polypropylene Electret Melt Blown Nonwovens with Superior Filtration Efficiency Stability through Thermally Stimulated Charging

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Spider‐Web‐Inspired PM0.3 Filters Based on Self‐Sustained Electrostatic Nanostructured Networks

Cited by 140 publications

References 44 publications

Electrospun ultrafine fibers for advanced face masks

Electrospun ultrafine fibers for advanced face masks

Development of Electrospun Nanofibrous Filters for Controlling Coronavirus Aerosols

Design of Polypropylene Electret Melt Blown Nonwovens with Superior Filtration Efficiency Stability through Thermally Stimulated Charging

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Product

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Spider‐Web‐Inspired PM_0.3 Filters Based on Self‐Sustained Electrostatic Nanostructured Networks