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Home NEWS Science News Chemistry

CityU scientists engineer a breath-to-charge electrostatic face mask for prolonged air filtration, reducing the environmental burden

Bioengineer by Bioengineer
February 16, 2023
in Chemistry
Reading Time: 4 mins read
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Electrostatic adsorption is an important complement to mechanical filtration for high-efficiency air filtering in the use of face masks. However, the electrostatic charge of the filters decays over time, particularly in humid conditions. A research team at City University of Hong Kong (CityU) successfully engineered a breath-to-charge electrostatic face mask that can “self-charge” through the user’s breathing and continuously replenish its electrostatic charge as the user wears and breathes through the mask. This significantly increase the filtering performance in prolonged use of the mask for up to 60 hours, compared to four hours for a conventional surgical mask. This also benefits the environment.

The self-charging air filter

Credit: © Dr Yang Zhengbao’s Group / City University of Hong Kong

Electrostatic adsorption is an important complement to mechanical filtration for high-efficiency air filtering in the use of face masks. However, the electrostatic charge of the filters decays over time, particularly in humid conditions. A research team at City University of Hong Kong (CityU) successfully engineered a breath-to-charge electrostatic face mask that can “self-charge” through the user’s breathing and continuously replenish its electrostatic charge as the user wears and breathes through the mask. This significantly increase the filtering performance in prolonged use of the mask for up to 60 hours, compared to four hours for a conventional surgical mask. This also benefits the environment.

Face masks are an easy, cost-effective method of preventing COVID-19 and other airborne diseases. Most face masks have three functional layers: a core melt-blown polypropylene (PP) layer as the filter medium and two spun-bonding nonwoven fabrics (generally PP or polyethylene (PE)) as the supporting layers, including a hydrophilic layer, worn inwards, to absorb moisture from breathing and a hydrophobic layer, worn outwards, to repel fluid. 

Tackling the problem of electrostatic adsorption efficacy decline

Electrospinning provides better mechanical filtration than the melt-blown technology extensively used in the industry. But mechanical filtration alone does not provide enough protection. One solution is to introduce an electric field to give the filter medium an electrostatic charge, which facilitates ultrafine particle trapping. However, the electrostatic adsorption efficacy declines over time, especially in a humid environment when moisture is exhaled in breathing. 

“Although many reports work on replenishing the charge for long-lasting electrostatic adsorption efficacy, an extra power source is generally needed, which is cumbersome and inconvenient,” explained Dr Yang Zhengbao, Associate Professor in the Department of Mechanical Engineering and the Department of Materials Science and Engineering at CityU, who led the research. “We have developed an efficient, durable, low-cost air filter that can continuously replenish the electrostatic charge in a self-charging manner.”

The research team introduced a self-charging air filter (SAF), which leverages the triboelectric effect and achieves efficient and prolonged airborne particle removal. By sandwiching the electrospun polyvinylidene fluoride (PVDF) nanofiber filter medium between two triboelectric nylon fabric layers, the SAF continuously generates electrostatic charges excited by breathing. As a result, the SAF provides durable particle removal performance, maintaining high efficiency of 95.8% after 60 hours of testing (including 30 hours of wearing). 

“As the middle layer moves forth and back between the lateral layers with breathing, a charge transfer occurs between PVDF and nylon due to their large difference in electron affinity, resulting in the PVDF layer being negatively charged and the nylon layers positively charged,” explained Dr Yang. “This self-charging process enables the continuous replenishment of the electrostatic charges and prolonged electrostatic adsorption.”

“Self-charging” driven by the user’s breath

The raw material cost of SAF for making one mask is as low as HK$0.47, making it the most cost-effective option among the commonly used masks, such as surgical, N95, KF94 and KN95 masks.

The findings were published in Nature Communications under the title “Self-charging electrostatic face masks leveraging triboelectrification for prolonged air filtration ”. 

This promising strategy of self-charging to leverage the triboelectric effect paves a new path for the development of high-efficiency, long-lifespan air-filtering techniques. “Surgical masks are suggested to be changed every four hours in a high-risk environment, but the vast number of discarded masks results in severe environmental challenges,” said Dr Yang. “We expect this self-charging strategy to significantly prolong the service life of face masks, enhance the protection effectiveness against the coronavirus, and reduce the environmental burden caused by discarded masks.” 

The research also established a quantitative relationship between filtration efficiency and surface electrostatic potential, which is important for standardised, high-efficiency industrial production.

The first author of the paper is Dr Peng Zehua, CityU postdoc in the Department of Mechanical Engineering. Dr Yang is the corresponding author. Other collaborators from CityU include Professor Michael Leung Kwok-hi, Shun Hing Education and Charity Fund Professor of Energy and Environment, Professor Li Wenjung, Chair Professor and Mr Shi Jihong, Ph.D. student in the Department of Mechanical Engineering, and researchers from Dr Yang’s group, including Dr Hong Ying, Dr Li Xuemu and Dr Zhang Weiwei.

The research was funded by CityU, the Hong Kong Research Grants Council, the Hong Kong Innovation and Technology Fund, the Shenzhen Fundamental Research Program, and the National Natural Science Foundation of China.

https://www.cityu.edu.hk/research/stories/2023/02/16/cityu-scientists-engineer-breath-charge-electrostatic-face-mask-prolonged-air-filtration-reducing-environmental-burden



Journal

Nature Communications

DOI

10.1038/s41467-022-35521-w

Method of Research

Experimental study

Subject of Research

Not applicable

Article Title

Self-charging electrostatic face masks leveraging triboelectrification for prolonged air filtration

Article Publication Date

20-Dec-2022

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