Potential natural polymer-based nanofibres for the development of facemasks in countering viral outbreaks.
Vigneshwaran ShanmugamKarthik BabuThomas F GarrisonAntonio J CapezzaRichard T OlssonSeeram RamakrishnaMikael S HedenqvistShuvra SinghaMattia BartoliMauro GiorcelliGabriel SasMichael FörsthOisik DasÁgoston RestásFilippo BertoPublished in: Journal of applied polymer science (2021)
The global coronavirus disease 2019 (COVID-19) pandemic has rapidly increased the demand for facemasks as a measure to reduce the rapid spread of the pathogen. Throughout the pandemic, some countries such as Italy had a monthly demand of ca. 90 million facemasks. Domestic mask manufacturers are capable of manufacturing 8 million masks each week, although the demand was 40 million per week during March 2020. This dramatic increase has contributed to a spike in the generation of facemask waste. Facemasks are often manufactured with synthetic materials that are non-biodegradable, and their increased usage and improper disposal are raising environmental concerns. Consequently, there is a strong interest for developing biodegradable facemasks made with for example, renewable nanofibres. A range of natural polymer-based nanofibres has been studied for their potential to be used in air filter applications. This review article examines potential natural polymer-based nanofibres along with their filtration and antimicrobial capabilities for developing biodegradable facemask that will promote a cleaner production.