US EPA

1504773 

Journal Article 

Photocatalytic disinfection with titanium dioxide coated multi-wall carbon nanotubes 

Krishna, V; Pumprueg, S; Lee, SH; Zhao, J; Sigmund, W; Koopman, B; Moudgil, BM 

2006 

1 

Process Safety and Environmental Protection
ISSN: 0957-5820
EISSN: 1744-3598 

83 

B4 (Jul 2006) 

393-397 

TiO sub(2) photocatalysis is currently being investigated as a viable technology to combat biological warfare agents such as anthrax spores. The current challenge in the use of photocatalysis for degradation of bacterial endospores is the time (in hours, as compared to minutes for bacteria) required for disinfection. The rate of disinfection can be increased by changing the rate of recombination of photon-generated electron-hole pairs and the rate of generation of reactive species. Modified photocatalysts has been synthesized by coating titanium dioxide, in anatase polymorph, on multi-wall carbon nanotubes (around 20 nm in diameter and 2-4 microns in length), for increasing the disinfection rate of bacterial endospores. Anatase coated multi-wall carbon nanotubes were tested for disinfection of Bacillus cereus spores (used as surrogate for anthrax spores) and the disinfection rate was shown to be twice as compared to the commercial titanium dioxide nanopowders, Degussa P25 (primary particle size of around 25 nm). These modified photocatalysts can also be used for selective disinfection of microorganisms depending on the surface morphology of the bacterial cell wall and the shape of the photocatalysts. 

Spores; Environmental protection; Morphology; Anthrax; Coatings; Bacteria; biological warfare agents; Biochemistry; Catalysts; Weapons; Bacillus anthracis; Photodegradation; Diseases; Cell walls; Public health; titanium dioxide; Bacillus cereus; nanotubes; Particle size; Carbon; Cytology; Microorganisms; Recombination; Disinfection; Biodegradation