stylo en cuivre antiviral et antibactérien
Antimicrobial Copper. Slide show, 2010 (en anglais). PDF

Antibakterielle Eigenschaften von Kupfer. Sonderdruck, Deutsches Kupferinstitut, 2007 (en allmand). PDF

Test Methods for Antimicrobial Copper. US Environmental Protection Agency, 2006 (an anglais). PDF

Kupfer - Vorkommen, Gewinnung, Eigenschaften, Verarbeitung, Verwendung. Deutsches Kupferinstitut, 1997 (en allmand). PDF

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Etudes scientifiques sur les propriétés antimicro-
biennes du cuivre (principalement en anglais)

Ibrahim, Z., Petrusan, A. J., Hooke, P. and Hinsa-Leasure, S. M. (2018) Reduction of bacterial burden by copper alloys on high-touch athletic center surfaces. Am. J. Infect. Control 46, 197-201. PDF

Luo, J., Hein, C., Mücklich, F. and Solioz, M. (2017) Killing of bacteria by copper, cadmium, and silver surfaces delineates the relevant physico-chemical parameters. Biointerphases 12, 020301-1-020301-6. PDF

Armstrong, A. M., Sobsey, M. D. and Casanova, L. M. (2016) Disinfection of Escherichia coli and Pseudomonas aeruginosa by copper in water. J. Water Health 14, 424-432. PDF

Hans, M., Mathews, S., Mücklich, F. and Solioz, M. (2016) Physicochemical properties of copper important for its antibacterial activity and development of a unified model. Biointerphases 11, 018902-1-018902-8. PDF

Schmidt, M. G., von Dessauer, B., Benavente, C., Benadof, D., Cifuentes, P., Elgueta, A., Duran, C. and Navarrete, M. S. (2016) Copper surfaces are associated with significantly lower concentrations of bacteria on selected surfaces within a pediatric intensive care unit. Am. J. Infect. Control 44, 203-209. PDF

Warnes, S. L. and Keevil, C. W. (2016) Lack of involvement of Fenton chemistry in death of methicillin-resistant and methicillin-sensitive strains of Staphylococcus aureus and destruction of their genomes on wet or dry copper alloy surfaces. Appl. Environ. Microbiol. 82, 2132-2136. PDF

Warnes, S. L., Little, Z. R. and Keevil, C. W. (2015) Human coronavirus 229E remains infectious on common touch surface materials. MBio. 6, e01697-15. PDF

Cavet, J. S. (2014) Copper as a magic bullet for targeted microbial killing. Chemistry & Biology 21, 921-922. PDF

Prado, V. J., Esparza, M. M., Vidal, A. R. and Durant, C. T. (2013) Adherence to copper and stainless steel metal coupons of common nosocomial bacterial strains. Rev. Med. Chile 141, 291-297. PDF

Wojgani, H., Kehsa, C., Cloutman-Green, E., Gray, C., Gant, V. and Klein, N. (2012) Hospital door handle design and their contamination with bacteria: a real life observational study. Are we pulling against closed doors? PLoS ONE 7, e40171. PDF

Solioz, M. (2011) Wirkung und Gebrauch von antimikrobiellem Kupfer. Tagungsband WüMEK 2011, Würzburg, Germany, pg. 120-125. PDF

Grass, G., Rensing, C. and Solioz, M. (2011) Metallic copper as an antimicrobial surface. Appl. Environ. Microbiol. 77, 1541-1547. PDF

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