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IIT-BHU develops anti-microbial multilayer facemask

IIT-BHU develops anti-microbial multilayer facemask

The School of Biomedical Engineering, Indian Institute of Technology (IIT-BHU), has developed an anti-microbial five-layered facemask that can annihilate pathogenic microorganisms stuck to its outer surface and thereby limit the spread of secondary infections.

As of now, there is no vaccine or drug available to combat the novel coronavirus. Mask, physical distancing and frequent hand-washing are the only ways that can save lives. But wearing mask for a long time may cause suffocation and proper handling of mask is tricky too. The new mask addresses a few of such issues, said a government press release.

“The mask that is available in the market currently acts as a filter to stop the entry of microbes to oral and nasal airways but does not have any effect on the microbe stuck to the mask surface,” said Dr Marshal, Associate Professor, School of Biomedical Engineering, IIT-BHU, said.

This shortcoming in masks could be dangerous for medical and paramedical staff due to the presence of higher viral or bacterial load on their outer surface. The IIT-BHU team addressed this problem by stacking different layers of nano-metal conjugated with protonated amine matrix.

The first layer of the mask can degrade any type of RNA, the next layer is anti-microbial, the third one is for air filtration, and the fourth and fifth layers are ‘comfortable layers’, which will remain close to the nose and mouth. “Copper and silver are de-transition elements and as per our knowledge they can degrade this virus and all the other members of Sars virus. We took a cocktail combination of copper, copper oxides, silver, and activated charged silver, which can help degrade RNA,” said Marshal.

For degradation testing, the researchers took the RNA of lung cells as the novel coronavirus propagates rapidly in the lungs. The RNA of other cells were also extracted. “We have extracted both cancerous and non-cancerous cells too. We have checked the degradation of these molecules. We have tested this in solution base and in coating base methods. This testing showed that the RNA was getting degraded. After this, we have optimized it,” said the researcher. The mask has hydrophobic surface on the outer layer to deflect water droplets containing the viruses. Patent has been applied for the product..