Substrate with Antimicrobial Properties An antimicrobial substrate (glass, ceramic or metallic) coated on at least one of its surface with at least one mixed layer deposited by a sputtering under vacuum magnetically enhanced process is described. The layer comprising at least one antimicrobial agent
Substrate with Antimicrobial Properties An antimicrobial substrate (glass, ceramic or metallic) coated on at least one of its surface with at least one mixed layer deposited by a sputtering under vacuum magnetically enhanced process is described. The layer comprising at least one antimicrobial agent mixed to binder material chosen amongst the metal oxides, oxynitrides, oxycarbides or nitrides. This substrate present antimicrobial properties, in particular bactericidal activity even when no thermal treatment has been applied. If a tempered and antimicrobial glass is required, the same co-sputtering process can be used, optionally an underlayer can be added. Antimicrobial properties are maintained even after a tempering process.
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1. A glass substrate, comprising: a glass substrate;an undercoating present on said glass substrate, said undercoating comprising a first layer of ZrO2 and a second layer of TiO2;a mixed layer coated on a least one surface of said glass substrate,to form a coated glass substrate, whereinsaid mixed l
1. A glass substrate, comprising: a glass substrate;an undercoating present on said glass substrate, said undercoating comprising a first layer of ZrO2 and a second layer of TiO2;a mixed layer coated on a least one surface of said glass substrate,to form a coated glass substrate, whereinsaid mixed layer comprises an antimicrobial agent to promote antimicrobial properties and at least one binder material selected from the group consisting of a metal oxide, an oxynitride, an oxycarbide, a carbide, a DLC, and a nitride, provided that titanium oxide and zirconium oxide are excluded from the mixed layer, andsaid antimicrobial agent comprises silver in a concentration of from 0.1 to 5%. 2. The glass substrate according to claim 1, wherein said mixed layer is deposited by sputtering under a vacuum process. 3. The glass substrate according to claim 1, wherein said mixed layer is deposited by sputtering under a magnetically enhanced vacuum process. 4. The glass substrate according to claim 1, wherein said at least one binder material is at least one material selected from the group consisting of SiO2, SnO2, ZnO, NbOx, Al2O3, Si3N4, TiN, and AlN. 5. The glass substrate according to claim 1, which presents annealed characteristics. 6. The glass substrate according to claim 1, wherein, on at least one of the following bacteria: E. coli, S. aureus, P. aeruginosa (measured in accordance with the standard JIS Z 2801), the antimicrobial agent has a bacterial effect higher than log 1. 7. The glass substrate according to claim 1, wherein, on at least one of the following bacteria: E. coli, S. aureus, P. aeruginosa (measured in accordance with the standard JIS Z 2801), the antimicrobial agent has a bacterial effect higher than log 2. 8. The glass substrate according to claim 1, wherein, on at least one of the following bacteria: E. coli, S. aureus, P. aeruginosa (measured in accordance with the standard JIS Z 2801), the antimicrobial agent has a bacterial effect higher than log 2.5. 9. The glass substrate according to claim 1, wherein said second layer of TiO2 is in anatase form. 10. A glass substrate, comprising: a glass substrate;an undercoating present on said glass substrate, said undercoating comprising a first layer of ZrO2 and a second layer of TiO2;a mixed layer coated on a least one surface of said glass substrate,to form a coated glass substrate, whereinsaid mixed layer comprises an antimicrobial agent to promote antimicrobial properties and at least one binder material selected from the group consisting of SnO2, NbOx, an oxynitride, an oxycarbide, a carbide, DLC, and a nitride, provided that titanium oxide and zirconium oxide are excluded from the mixed layer, andsaid antimicrobial agent is selected from the group consisting of silver and copper. 11. The glass substrate according to claim 10, wherein said mixed layer is deposited by sputtering under a vacuum process. 12. The glass substrate according to claim 10, wherein said mixed layer is deposited by sputtering under a magnetically enhanced vacuum process. 13. The glass substrate according to claim 10, wherein said mixed layer comprises the antimicrobial agent in an amount of from 2 to 1000 mg per m2 of substrate surface. 14. The glass substrate according to claim 10, wherein said mixed layer comprises the antimicrobial agent in an amount of from 10 to 250 mg per m2 of substrate surface. 15. The glass substrate according to claim 10, wherein said mixed layer comprises the antimicrobial agent in an amount of from 20 to 100 mg per m2 of substrate surface. 16. The glass substrate according to claim 10, wherein said mixed layer comprises Ag doped SnO2, NbOx, Si3N4, TiN, or AlN, or a mixture thereof. 17. The glass substrate according to claim 10, wherein said mixed layer comprises Ag doped ZnSnOx. 18. The glass substrate according to claim 10, which presents annealed characteristics. 19. The glass substrate according to claim 10, wherein said second layer of TiO2 is in anatase form.
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