Loading…

Biocompatibile nanofiber based membranes for high-efficiency filtration of nano-aerosols with low air resistance

Particulate matter (PMs) from combustion emissions (traffic, power plant, and industries) and the novel coronavirus (COVID-19) pandemic have recently enhanced the development of personal protective equipment against airborne pathogens to protect humans’ respiratory system. However, most commercial f...

Full description

Saved in:
Bibliographic Details
Published in:Process safety and environmental protection 2022-11, Vol.167, p.695-707
Main Authors: Chen, Hua-Wei, Kuo, Yu-Lin, Chen, Chien-Hua, Chiou, Chyow-San, Chen, Wei-Ting, Lai, Yi-Hung
Format: Article
Language:English
Subjects:
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Particulate matter (PMs) from combustion emissions (traffic, power plant, and industries) and the novel coronavirus (COVID-19) pandemic have recently enhanced the development of personal protective equipment against airborne pathogens to protect humans’ respiratory system. However, most commercial face masks still cannot simultaneously achieve breathability and high filtration of PMs, bacteria, and viruses. This study used the electrospinning method with polyimide (PI) and polyethersulfone (PES) solutions to form a nanofiber membrane with low-pressure loss and high biocompatibility for high-efficiency bacteria, viruses, and nano-aerosol removal. Conclusively, the optimized nano-sized PI/PES membrane (0.1625 m2/g basis weight) exhibited conspicuous performance for the highest filtration efficiency towards PM from 50 to 500 nm (99.74 %), good filter quality of nano-aerosol (3.27 Pa−1), exceptional interception ratio against 100-nm airborne COVID-19 (over 99 %), and non-toxic effect on the human body (107 % cell viability). The PI/PES nanofiber membrane required potential advantage to form a medical face mask because of its averaged 97 % BEF on Staphylococcus aureus filiation and ultra-low pressure loss of 0.98 Pa by referring ASTM F2101–01. The non-toxic PI/PES filters provide a new perspective on designing excellent performance for nano-aerosols from air pollution and airborne COVID-19 with easy and comfortable breathing under ultra-low air flow resistance. [Display omitted] •Low-pressure loss and high biocompatibility for viruses and nano-aerosol removal.•The optimized nano-sized PI/PES membrane approached to 0.1625 m2/g basis weight.•99.74 % filtration efficiency for PM from 50 to 500 nm with 3.27 Pa−1 filter quality.•Exceptional interception ratio against 100-nm airborne COVID-19 is over 99 %.•Non-toxic effect on the human body shows 107 % cell viability.
ISSN:0957-5820
1744-3598
DOI:10.1016/j.psep.2022.09.052