Haijun He scite author profile

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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3D Printed and Electrospun, Transparent, Hierarchical Polylactic Acid Mask Nanoporous Filter

Gao

Illés

et al. 2024

IJB

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Face masks are becoming one of the most useful personal protective equipment with the outbreak of the coronavirus (CoV) pandemic. The entire world is experiencing shortage of disposable masks and melt-blown non-woven fabrics, which is the raw material of the mask filter. Recyclability of the discarded mask is also becoming a big challenge for the environment. Here, we introduce a facile method based on electrospinning and three-dimensional printing to make changeable and biodegradable mask filters. We printed polylactic acid (PLA) polymer struts on a PLA nanofiber web to fabricate a nanoporous filter with a hierarchical structure and transparent look. The transparent look overcomes the threatening appearance of the masks that can be a feasible way of reducing the social trauma caused by the current CoV disease-19 pandemic. In this study, we investigated the effects of nozzle temperature on the optical, mechanical, and morphological and filtration properties of the nanoporous filter.

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Monitoring multi-respiratory indices via a smart nanofibrous mask filter based on a triboelectric nanogenerator

Guo

Illés

et al. 2021

Nano Energy

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Analysis and prediction of the diameter and orientation of AC electrospun nanofibers by response surface methodology

Wang

Farkas

et al. 2020

Materials & Design

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A Review on PVDF Nanofibers in Textiles for Flexible Piezoelectric Sensors

Wan

Cong

Jiang

et al. 2023

ACS Appl. Nano Mater.

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Textiles are turning into a suitable next-generation sensing platform because of their good breathability, softness, and structural elasticity. Besides, research on self-powered piezoelectric sensors is a hot topic in wearable applications; they can perform long-term sensing and monitoring. Therefore, this paper mainly reviews the development progress of PVDF-based textiles on flexible piezoelectric sensors. In this paper, we first introduce the principle of the piezoelectric effect and the classification of piezoelectric materials; then we summarize the structure and characteristics of nanofiber mat-based, yarn-based, and fabric-based flexible piezoelectric sensors and the approaches that are employed to fabricate PVDF-based textile piezoelectric sensors such as melt spinning, electrospinning, and stretch forming processes, and so on. At last, we review their applicability in the application of electronic skin, human–computer interaction, healthcare, and human movement monitoring and demonstrate the facing difficulties and the future research directions of PVDF-based textile flexible sensors.

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Haijun He

Electrospun ultrafine fibers for advanced face masks

3D Printed and Electrospun, Transparent, Hierarchical Polylactic Acid Mask Nanoporous Filter

Monitoring multi-respiratory indices via a smart nanofibrous mask filter based on a triboelectric nanogenerator

Analysis and prediction of the diameter and orientation of AC electrospun nanofibers by response surface methodology

A Review on PVDF Nanofibers in Textiles for Flexible Piezoelectric Sensors

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