November 22, 2024

A Better Kind of Face Mask: Researchers Develop Virus Killing Masks

Researchers have developed antiviral N95 masks that can possibly be worn longer, lowering waste
The research study group utilized economical and available devices to enhance N95 masks and cut waste.
Scientists at Rensselaer Polytechnic Institute have developed a practical technique for producing N95 face masks that are both excellent germ barriers and on-contact bacterium killers. The antiviral and anti-bacterial masks might be used for longer amount of times, which would result in less plastic waste as the masks would not require to be changed as often.
In order to fight infectious breathing diseases and ecological pollution, Helen Zha, assistant teacher of chemical and biological engineering and a member of the Center for Biotechnology and Interdisciplinary Studies at Rensselaer (CBIS), worked with Edmund Palermo, associate professor of products science and engineering and a member of the Center for Materials, Devices, and Integrated Systems (cMDIS) at Rensselaer.
” This was a complex materials engineering difficulty with a fantastic, varied team of partners,” Palermo stated. “We believe the work is the primary step toward longer-lasting, self-sterilizing personal protective devices, such as the N95 respirator. It might assist minimize transmission of airborne pathogens in general.”

” The active filtration layers in N95 masks are extremely sensitive to chemical modification,” said Zha. The team did see a decline in filtration effectiveness when the procedure was applied directly to the filtration layer of N95 masks, however the option is straightforward. The user could use an unaltered N95 mask along with another polypropylene layer with the antimicrobial polymer on top. In the future, makers might make a mask with the antimicrobial polymer included into the leading layer.
Quick forward to 2022 and face masks of all types are now commonly offered.

The researchers successfully implanted broad-spectrum antimicrobial polymers onto the polypropylene filters utilized in N95 face masks, according to the research study that was recently published in Applied ACS Materials and Interfaces.
An N95 respirator mask is developed to offer a really tight fit on the face and extremely effective air-borne particle filtering.
” The active filtering layers in N95 masks are extremely sensitive to chemical adjustment,” said Zha. Another obstacle is that you do not desire to disrupt the extremely fine network of fibers in these masks, which might make them more difficult to breathe through.”
Zha and Palermo, in addition to other scientists from Rensselaer, Michigan Technological Institute, and Massachusetts Institute of Technology, covalently connected antimicrobial quaternary ammonium polymers to the fiber surface areas of nonwoven polypropylene fabrics using ultraviolet (UV)- started implanting. The fabrics were contributed by Hills Inc. thanks to Rensselaer alumnus Tim Robson.
” The procedure that we established utilizes a truly basic chemistry to produce this non-leaching polymer finishing that can eliminate infections and germs by basically bursting their external layer,” stated Zha. “Its very uncomplicated and a potentially scalable approach.”
The group utilized just UV light and acetone in their process, which are commonly readily available, to make it simple to implement. On top of that, the procedure can be used to currently produced polypropylene filters, rather than requiring the development of brand-new ones.
The group did see a reduction in filtering efficiency when the procedure was applied directly to the filtration layer of N95 masks, however the solution is uncomplicated. The user could wear an unchanged N95 mask along with another polypropylene layer with the antimicrobial polymer on top. In the future, makers might make a mask with the antimicrobial polymer included into the leading layer.
When N95 face masks were in brief supply, thanks to a National Science Foundation Rapid Response Research (RAPID) grant, Zha and Palermo started their research in 2020.
Health care employees were even reusing masks that were meant to be single-use. Fast forward to 2022 and face masks of all types are now commonly readily available. Nevertheless, COVID rates are still high, the threat of another pandemic in the future is an unique possibility, and single-use, disposable masks are piling up in land fills.
” Hopefully, we are on the opposite of the COVID pandemic,” stated Zha. “But this kind of technology will be significantly crucial. The risk of diseases brought on by air-borne microorganisms is not disappearing. Its about time that we enhanced the performance and sustainability of the products that we use to secure ourselves.”
” Attaching chemical groups that kill infections or bacteria on contact with polypropylene is a clever strategy,” said Shekhar Garde, Dean of the School of Engineering at Rensselaer. “Given the abundance of polypropylene in life, maybe this strategy works in numerous other contexts, also.”
The research study was funded by the NIH/National Institutes of Health..
Reference: “Virucidal N95 Respirator Face Masks via Ultrathin Surface-Grafted Quaternary Ammonium Polymer Coatings” by Mirco Sorci, Tanner D. Fink, Vaishali Sharma, Sneha Singh, Ruiwen Chen, Brigitte L. Arduini, Katharine Dovidenko, Caryn L. Heldt, Edmund F. Palermo and R. Helen Zha, 25 May 2022, ACS Applied Materials and Interfaces.DOI: 10.1021/ acsami.2 c04165.