Survival of Microorganisms on Nonwovens Used for the Construction of Filtering Facepiece Respirators

Majchrzycka, Katarzyna; Szulc, Joachim; Jachowicz, Anita; Gutarowska, Beata

doi:10.3390/ijerph16071154

Cited by 16 publications

(15 citation statements)

References 21 publications

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“…The nonwoven fabric incorporates electrostatic charges and can remove bacteria/viruses and aerosols containing microorganisms by physical filtration and electrostatic absorption when air is permeated through ( Figure 1 a). Majchrzycka and coworkers [ 44 ] investigated the survival of microorganisms on five different commercial filtering nonwoven masks. They found that structural parameters of the tested nonwovens (mass per unit area and thickness) and contact angle changes did not greatly affect microorganism survival, but the survival fraction was more dependent on microorganism species.…”

Section: Mask Application and Development Status: Civil Sanitary Surmentioning

confidence: 99%

A technical review of face mask wearing in preventing respiratory COVID-19 transmission

Liao

Liu

et al. 2021

Current Opinion in Colloid & Interface Science

198

119

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Since the outbreak of the COVID-19 pandemic, most countries have recommended their citizens to adopt social distance, hand hygiene, and face mask wearing. However, wearing face masks has not been well adopted by many citizens. While the reasons are complex, there is a general perception that the evidence to support face mask wearing is lacking, especially for the general public in a community setting. Face mask wearing can block or filter airborne virus-carrying particles through the working of colloid and interface science. This paper assesses current knowledge behind the design and functioning of face masks by reviewing the selection of materials, mask specifications, relevant laboratory tests, and respiratory virus transmission trials, with an overview of future development of reusable masks for the general public. This review highlights the effectiveness of face mask wearing in the prevention of COVID-19 infection.

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Section: Mask Application and Development Status: Civil Sanitary Surmentioning

confidence: 99%

A technical review of face mask wearing in preventing respiratory COVID-19 transmission

Liao

Liu

et al. 2021

Current Opinion in Colloid & Interface Science

198

119

View full text Add to dashboard Cite

show abstract

“…Polymers, which act as the primary substrate for face masks, could be fine−tuned to impart bio−active and bio−passive properties to the fabrics. The active moieties such as N−halamines, QACs, PEI, benzophenone (BP), polypyrrole, and inorganic groups, such as metals, have been incorporated to yield various antimicrobial polymers suitable for making a reusable facemask [ 190 , 191 ]. Among these, N−halamine and QACs have proven and powerful activity against a broad spectrum of microorganisms.…”

Section: Asas With Apsmentioning

confidence: 99%

Antimicrobial Polymer−Based Assemblies: A Review

Carmona-Ribeiro

Araújo

2021

IJMS

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An antimicrobial supramolecular assembly (ASA) is conspicuous in biomedical applications. Among the alternatives to overcome microbial resistance to antibiotics and drugs, ASAs, including antimicrobial peptides (AMPs) and polymers (APs), provide formulations with optimal antimicrobial activity and acceptable toxicity. AMPs and APs have been delivered by a variety of carriers such as nanoparticles, coatings, multilayers, hydrogels, liposomes, nanodisks, lyotropic lipid phases, nanostructured lipid carriers, etc. They have similar mechanisms of action involving adsorption to the cell wall, penetration across the cell membrane, and microbe lysis. APs, however, offer the advantage of cheap synthetic procedures, chemical stability, and improved adsorption (due to multipoint attachment to microbes), as compared to the expensive synthetic routes, poor yield, and subpar in vivo stability seen in AMPs. We review recent advances in polymer−based antimicrobial assemblies involving AMPs and APs.

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“…Nonetheless, some constraints of nominal standard mask ongoing usages for medical safety purpose. Firstly, the exteriors of surgical masks are hydrophobic, water droplets encompassing terrible viruses can remain on them [21] , [22] . Secondly, the mask has a low diffusing point; commonly lower than 130ºC to 140ºC, so those masks are highly demanding to reiterate them even with the sunlight sterilization techniques avoiding antibacterial coating from the graphene layered mask.…”

Section: Introductionmentioning

confidence: 99%

Sunlight sterilized, recyclable and super hydrophobic anti-COVID laser-induced graphene mask formulation for indelible usability

Pal

Kyzas

Kralj

et al. 2021

Journal of Molecular Structure

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The uncontrollable outbreak of the novel coronavirus (COVID-19) rapidly affected almost 230 countries and territories and its transmission mainly due to respiratory droplets. To fight and protect against micron dimension (∼1.4µm) corona virus the usage of disposable medical masks is one and only trivial option for patients, doctors, health employers and in fact mandatory for kids to senior citizens, as well as public places in a risky environment. Ordinary medical masks unable to self-sterilize in order to recycle for other appliances resulting further destroying impact of societies high economic and environmental costs. To minimize this global pandemic issue this proposal explores novel mechanism for further commercialization of surgical mask of photo-thermal and self-cleaning functionalization. Indeed, depositing few layer ultra-thin graphene coating onto low-melting temperature non-woven mask by tempering a dual mode laser induced mechanism. Incoming aqueous droplets are bounced off due the super-hydrophobic states were treated on the mask surface. Superficial hydrophobic surface yields an advanced safety towards approaching respiratory droplets. Due to the huge absorption coefficient capability of the sunrays activated laser-induced mask may rapidly boost temperature exceeds 85ºC under sunlight illumination, causes making the mask reusable after sunlight distillation. For SARS/coronavirus/ aerosolized bacteria, laser induced graphene mask is a recent breakthrough in superior antibacterial capacity. Furthermore, cost-effective ultra-thin layered mask formulation recycled directly utilizes solar-driven desalination with remarkable self-exclusion performance for indelible usability. Featured article, deals with remarkable achievements from forthcoming experimentation which may be inspired with layered mask designing by more progressive materials.

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Survival of Microorganisms on Nonwovens Used for the Construction of Filtering Facepiece Respirators

Cited by 16 publications

References 21 publications

A technical review of face mask wearing in preventing respiratory COVID-19 transmission

A technical review of face mask wearing in preventing respiratory COVID-19 transmission

Antimicrobial Polymer−Based Assemblies: A Review

Sunlight sterilized, recyclable and super hydrophobic anti-COVID laser-induced graphene mask formulation for indelible usability

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