Rechargeable Infection-Resistant Materials Yuyu Sun Department of Human Ecology The University of...
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![Page 1: Rechargeable Infection-Resistant Materials Yuyu Sun Department of Human Ecology The University of Texas at Austin.](https://reader036.fdocuments.in/reader036/viewer/2022072006/56649d085503460f949d9752/html5/thumbnails/1.jpg)
Rechargeable Infection-Rechargeable Infection-Resistant Materials Resistant Materials
Yuyu SunDepartment of Human Ecology
The University of Texas at Austin
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General transmission pathway of General transmission pathway of harmful germsharmful germs
Germ Carriers
Environmental Surfaces
New Victims
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Survival of infectious agents on Survival of infectious agents on materialsmaterials
Species Typical Examples Survival Time
Gram-negative bacteria
E. coli Up to 60 days
Gram-positive bacteria
S. aureus Up to 90 days
Fungi C. tropicalis Up to 60 days
Viruses Influenza viruses, SARS
Up to 12 hours
Spores Bacillus subtilis (surrogate of
anthrax)
Months to years
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Durable, rechargeable biocidal Durable, rechargeable biocidal surfacessurfaces
Dead bacteria
Live bacteria
1. Surface treated with our technology
2.Bacteria come into contact with surface
3.Bacteria are killed
4.Chlorine is consumed
5.Chlorine bleach rinse recharges surface
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Biocidal functionsBiocidal functions
MicroorganismsChlorine
content (%)Minimum contact time
for a total kill
E. coli* 0.5% 3 min
S. aureus* 0.5% 3 min
C. tropicalis* 0.5% 3 min
MS2 virus** 1.0% 5 min
Bacillus subtilis spores
1.0% 4 hr
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Biofilm formation was prevented Biofilm formation was prevented in side-by-side comparisonin side-by-side comparison
SEM of (A) pure polypropylene and (B) treated polypropylene after contact with S. epidermidis for 72h
A B
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Potential applicationsPotential applications
Hospital equipment Medical and dental device Food storage Water purification and transportation Consumer products Etc.