1. Nanoscale Powders and Formulations with Biocidal Activity Toward Spores and Vegetative Cells of Bacillus Species, Viruses, and Toxins
- Author
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John S. Klabunde, Kenneth J. Klabunde, George L. Marchin, Olga Koper, Lalit Bohra, and Peter K. Stoimenov
- Subjects
Spores ,Colony Count, Microbial ,Bacillus cereus ,Bacillus ,chemistry.chemical_element ,engineering.material ,Applied Microbiology and Biotechnology ,Microbiology ,chemistry.chemical_compound ,Halogens ,Aflatoxins ,Escherichia coli ,Animals ,Nanotechnology ,Particle Size ,Calcium oxide ,Levivirus ,Toxins, Biological ,Lime ,Dose-Response Relationship, Drug ,biology ,Magnesium ,fungi ,Oxides ,General Medicine ,Human decontamination ,Calcium Compounds ,biology.organism_classification ,Antimicrobial ,Spore ,chemistry ,engineering ,Powders ,Magnesium Oxide ,Disinfectants ,Nuclear chemistry - Abstract
Certain formulations of nanoscale powders possess antimicrobial properties. These formulations are made of simple, nontoxic metal oxides such as magnesium oxide (MgO) and calcium oxide (CaO, lime) in nanocrystalline form, carrying active forms of halogens, for example, MgO. Cl2 and MgO. Br2. When these ultrafine powders contact vegetative cells of Escherichia coli, Bacillus cereus, or Bacillus globigii, over 90% are killed within a few minutes. Likewise, spore forms of the Bacillus species are decontaminated within several hours. Dry contact with aflatoxins and contact with MS2 bacteriophage (surrogate of human enterovirus) in water also causes decontamination in minutes.
- Published
- 2002
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