Superfilter nanomask to protect from MERS, SARS viruses
Beijing: Scientists have invented a novel nanomask that can filter incredibly tiny particles such as air pollutants as well as seriously damaging MERS and SARS
viruses.
The mask, developed by Wallace Leung of The Hong Kong Polytechnic University, is made out of multiple layers of different types of nanofibres, which filter nanosized particles.
Layering the nanofibres provides a large surface area, enhancing the natural movement of particles and their interception by the fibres.
It also allows users to breathe comfortably since air flows freely through the multiple layers without much resistance.
Conventional masks made from microfibres cannot effectively filter nanosized particles such as the influenza A virus, or the more seriously damaging Middle East respiratory syndrome (MERS) and severe acute respiratory syndrome (SARS) viruses, which can cause serious infections, illness and even death.
Many Asian countries also deal with serious airborne particles from pollution and forest fires, which are too small to be filtered by conventional microfibre masks.
The influenza A, SARS and MERS viruses range in size from about 80 to 140 nanometres (nm) in diameter. Ultrafine particulate matter suspended in the air originates from combustion and ranges from 10 to 100nm in size.
When these particles gather, they form larger particles several hundreds of nanometres in size and reflect visible light. This is what we know as "smog."
In comparison, the diameter of a human hair is about 100 microns or 100,000nm.
Different types of nanofibres can be used in some layers of the mask to provide additional functions.
For example, incorporating a layer of titanium dioxide and other semiconductor composite nanofibres in the mask converts pollutant gases, such as nitrous oxide, to harmless substances when the fibres are exposed to visible light, even
under room light conditions.
Also, incorporating chitosan nanofibres in the mask can provide antibacterial functions when the fibres become wet from sweat, for example.
Leung has also adapted the nanofibre filter for use in airplane and vehicle cabin ventilation systems.