Abstract
With the spread of COVID-19, significant emphasis has been placed on mitigation techniques such as mask wearing to slow infectious disease transmission. Widespread use of face coverings has revealed challenges such as mask contamination and waste, presenting an opportunity to improve the current technologies. In response, we have developed the Auto-sanitizing Retractable Mask Optimized for Reusability (ARMOR). ARMOR is a novel, reusable face covering that can be quickly disinfected using an array of ultraviolet C lamps contained within a wearable case. A nanomembrane UVC sensor was used to quantify the intensity of germicidal radiation at 18 different locations on the face covering and determine the necessary exposure time to inactivate SARS-CoV-2 in addition to other viruses and bacteria. After experimentation, it was found that ARMOR successfully provided germicidal radiation to all areas of the mask and will inactivate SARS-CoV-2 in approximately 180 s, H1N1 Influenza in 130 s, and Mycobacterium tuberculosis in 113 s, proving that this design is effective at eliminating a variety of pathogens and can serve as an alternative to traditional waste-producing disposable face masks. The accessibility, ease of use, and speed of sanitization supports the wide application of ARMOR in both clinical and public settings.
Highlights
With the spread of COVID-19, significant emphasis has been placed on mitigation techniques such as mask wearing to slow infectious disease transmission
While mask wearing as a mitigation technique has been effective, it has revealed the shortcomings of current mask technologies
We have developed the Auto-sanitizing Retractable Mask Optimized for Reusability (ARMOR), to further combat the spread of COVID-19 and other infectious diseases and reduce unnecessary waste
Summary
With the spread of COVID-19, significant emphasis has been placed on mitigation techniques such as mask wearing to slow infectious disease transmission. Widespread use of face coverings has revealed challenges such as mask contamination and waste, presenting an opportunity to improve the current technologies. Current mask technology is limited to two broad categories of face coverings: disposable and reusable. Both types have unique advantages and disadvantages, allowing for significant room for improvement. It is estimated that 75–90% of this waste is composed of nonhazardous paper and plastic materials, which includes disposable face masks and other personal protective equipment (PPE)[9]. The World Health Organization expects the demand for disposable PPE to increase by up to 20% by 2025 as additional emphasis is placed on reducing the spread of infectious d isease[10]
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