Antibacterial Matte Glass-Ceramic Coatings with Satin Texture for Ceramic Tiles

Savvova, Oksana; Pokroieva, Yana; Voronov, Hennadii; Babich, Olena; Smyrnova, Yuliia

Antibacterial Matte Glass-Ceramic Coatings with Satin Texture for Ceramic Tiles

dc.citation.epage	665
dc.citation.issue	3
dc.citation.spage	655
dc.contributor.affiliation	O. M. Beketov National University of Urban Economy in Kharkiv
dc.contributor.affiliation	PJSC “Kharkiv Tile Plant”
dc.contributor.affiliation	Scientific Research Institution “Ukrainian Scientific Research Institute of Ecological Problems”
dc.contributor.author	Savvova, Oksana
dc.contributor.author	Pokroieva, Yana
dc.contributor.author	Voronov, Hennadii
dc.contributor.author	Babich, Olena
dc.contributor.author	Smyrnova, Yuliia
dc.coverage.placename	Львів
dc.coverage.placename	Lviv
dc.date.accessioned	2024-02-12T08:52:02Z
dc.date.available	2024-02-12T08:52:02Z
dc.date.created	2023-02-28
dc.date.issued	2023-02-28
dc.description.abstract	Розроблено антибактеріальні сатинові склокристалічні покриття для керамічної плитки за одностадійним випалом на основі висококальцієвих цинкалюмосилікатних фрит, які модифіковано катіонами важких металів. Встановлено антибактеріальний ефект розроблених матових склокристалічних покриттів з шовковою текстурою завдяки ефекту потенціонування антибактеріальної активності сумісної дії кристалічної фази гардистоніту та наповнювачів оксидів цинку й олова.
dc.description.abstract	Antibacterial satin glass-ceramic coatings for ceramic tiles have been developed by one-stage firing on the basis of high-calcium zinc aluminum silicate frits, which are modified with heavy metal cations. The antibacterial effect of the developed matte glass-ceramic coatings with a satin texture was established due to the effect of potentiating the antibacterial activity of the combined action of the hardystonite crystalline phase and fillers of zinc and tin oxides.
dc.format.extent	655-665
dc.format.pages	11
dc.identifier.citation	Antibacterial Matte Glass-Ceramic Coatings with Satin Texture for Ceramic Tiles / Oksana Savvova, Yana Pokroieva, Hennadii Voronov, Olena Babich, Yuliia Smyrnova // Chemistry & Chemical Technology. — Lviv : Lviv Politechnic Publishing House, 2023. — Vol 17. — No 3. — P. 655–665.
dc.identifier.citationen	Antibacterial Matte Glass-Ceramic Coatings with Satin Texture for Ceramic Tiles / Oksana Savvova, Yana Pokroieva, Hennadii Voronov, Olena Babich, Yuliia Smyrnova // Chemistry & Chemical Technology. — Lviv : Lviv Politechnic Publishing House, 2023. — Vol 17. — No 3. — P. 655–665.
dc.identifier.doi	doi.org/10.23939/chcht17.03.655
dc.identifier.issn	1196-4196
dc.identifier.uri	https://ena.lpnu.ua/handle/ntb/61272
dc.language.iso	en
dc.publisher	Видавництво Львівської політехніки
dc.publisher	Lviv Politechnic Publishing House
dc.relation.ispartof	Chemistry & Chemical Technology, 3 (17), 2023
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dc.relation.references	[13] Noguera, J.F.; Moreno, A.; Gozalbo, A.; Orts, M.J. Develop-ment of Ceramic Glaze Compositions with Bactericidal and Fungi-cidal Properties. Qualicer'10 Castellon (Spain) [Online] 2010. https://www.qualicer.org/recopilatorio/ponencias/pdfs/2010189.pdf (accessed 2022-11-16).
dc.relation.references	[14] Özcan, S.; Çaliş Açikbaş, N.; Açikbaş, G. Formation of anti-bacterial effect on ceramic tile surfaces. Anadolu University Journal of Science and Technology A- Applied Sciences and Engineering [Online] 2017, 18, 122-130. https://doi.org/10.18038/aubtda.300424
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dc.relation.references	[16] Maryani, E, Nurjanah, N. S, Hadisantoso, E.P.; Wijayanti, R.B. The Effect of TiO2 Additives on the Antibacterial Properties (Escherichia coli and Staphylococcus aureus) of Glaze on Ceramic Tiles. IOP Conference Series: Materials Science and Engineering 2020, 980, 012011. https://doi.org/10.1088/1757-899X/980/1/012011
dc.relation.references	[17] Hasmaliza, M.; Foo, H.S.; Mohd, K. Anatase as Antibacterial Material in Ceramic Tiles. Procedia Chem. 2016, 19, 828-834. https://doi.org/10.1016/j.proche.2016.03.109
dc.relation.references	[18] Campbell, A.L. Ceramic glaze having antimicrobal property. US20090104459A1, 23 April 2009.
dc.relation.references	[19] Kumar, G.D.; Mishra, A; Dunn, L.; Townsend, A.; Oguadinma, I.C.; Bright, K.R.; Gerba, C.P. Biocides and Novel Antimicrobial Agents for the Mitigation of Coronaviruses. Front. Microbiol. 2020, 11, А.1351. https://doi.org/10.3389/fmicb.2020.01351
dc.relation.references	[20] Savvova, O.V.; Bragina, L. L.; Babich, E.V. Study of the Biocidal Properties of R2O–RO–TiO2–P2O5–R2O3–SiO2 Glass Ceramic Coatings. Glass Ceram. 2012, 69, 20–24. https://doi.org/10.1007/s10717-012-9407-3
dc.relation.references	[21] Reinosa, J.J.; Rojo, M.M.; del Campo, A.; Martín-González, M.; Fernández J.F. Highly Efficient Antimicrobial Ceramics Based on Electrically Charged Interfaces. ACS Appl. Mater. Interfaces 2019, 11, 39254–39262. https://doi.org/10.1021/acsami.9b10690
dc.relation.references	[22] Mäkelä, J.; Aromaa, M. UNCOAT – Enhanced Functionality of Selfcleaning and Antibacterial Surface Coatings. [Online] 2009, 06120. http://www.diva-portal.se/smash/get/diva2:707171/FULLTEXT01.pdf (accessed 2022-11-18)
dc.relation.references	[23] Tapkire, G.V. Influence of Antimicrobial & Super Hydrophobic on Flooring Tiles. Int. res. j. eng. tech. 2018, 05, 1453-1456.
dc.relation.references	[24] da Silva, A.L.; Dondi, M.; Hotza, D. Self-Cleaning Ceramic Tiles Coated with Nb2O5 Doped-TiO 2 Nanoparticles. Ceram. Int. 2017, 43, 11986-11991. https://doi.org/10.1016/j.ceramint.2017.06.049
dc.relation.references	[25] Khorshidi, Z.G.; Jallab, M.; Moghbelli E.; Goudarzi, A.; Ghaf-fari, M. Photocatalytic Analysis of a Hydrophilic Acrylic Coating/ Zinc Oxide Nanocomposite on Glass Substrate. POLYM-PLAST TECH MAT 2021, 60, 1220-1232. https://doi.org/10.1080/25740881.2021.1888986
dc.relation.references	[26] Savvova, O.V.; Shevetovsky, V.V.; Pokroeva, Ya.O.; Zinchenko, I.V.; Babich, O.V.; Voronov, H.K. Development of Antibacterial Glazing for Ceramic Tiles. Voprosy khimii i khimicheskoi tekhnologii 2022, 3, 60-66. https://doi.org/10.32434/0321-4095-2022-142-3-60-66
dc.relation.references	[27] Kapoor, A.; Viraraghavan, T. Heavy Metal Biosorption Sites in Aspergillus niger. Bioresour. Technol. 1997, 61, 221-227. https://doi.org/10.1016/S0960-8524(97)00055-2
dc.relation.referencesen	[1] Ceramic Tiles Market by Type (Porcelain, Glazed, Unglazed), Application (Floor, Internal Wall, External Wall, Others), End-Use Sector (Residential & Non-residential), & Region - Global Forecast to 2025. https://www.marketsandmarkets.com/Market-Reports/ceramic-tiles-market-22... (accessed 2022-11-08).
dc.relation.referencesen	[2] Vitenu-Sackey, P.A.; Barfi, R. The Impact of Covid-19 Pandemic on the Global Economy: Emphasis on Poverty Alleviation and Economic Growth. The Economics and Finance Letters 2021, 8, 32-43. https://doi.org/10.18488/journal.29.2021.81.32.43
dc.relation.referencesen	[3] Indian Council of Ceramic Tiles and Sanitary Ware. http://www.icctas.com/pdf/magazine_2021.pdf (accessed 2022-11-08)
dc.relation.referencesen	[4] Antimicrobial Materials for Biomedical Applications. Series 5; Domb, A.J.; Kunduru, K.R.; Farah, S., Eds.; London: Royal Society of Chemistry, 2019.
dc.relation.referencesen	[5]. Luo, H.; Yin, X.-Q.; Tan, P.-F.; Gu, Z.-P.; Liu, Z.-M.; Tan, L. Polymeric Antibacterial Materials: Design, Platforms and Applica-tions, J. Mater. Chem. B 2021, 9, 2802-2815. https://doi.org/10.1039/D1TB00109D
dc.relation.referencesen	[6] Zhang, E.; Zhao, X.; Hu, J.; Wang, R.; Fu, S; Qin, G. Antibac-terial Metals and Alloys for Potential Biomedical Implants. Bioact. Mater. 2021, 6, 2569-2612. https://doi.org/10.1016/j.bioactmat.2021.01.030
dc.relation.referencesen	[7] Godoy-Gallardo, M.; Eckhard, U.; Delgado, L.M.; de Roo Puente, Y.J.D.; Hoyos-Nogués, M.; Gil, F.J.; Perez, R.A. Antibacterial Approaches in Tissue Engineering Using Metal Ions and Nanoparticles: From Mechanisms to Applications. Bioact. Mater. 2021, 6, 4470-4490. https://doi.org/10.1016/j.bioactmat.2021.04.033
dc.relation.referencesen	[8] Ceramic Products Market in Japan. Tableware, Wall & Floor Tiles, Bio-ceramics. Challenges and Opportunities for European Companies. https://www.eu-japan.eu/sites/default/files/ publica-tions/docs/ceramicproductsmarket_spupapaza_min15-2.pdf (accessed 2022-11-09).
dc.relation.referencesen	[9] Development of Sol-gel Antibacterial and Antiviral Coating for Glass NEWS RELEASE. https://www.nsg.com/-/media/nsgcom/downloads/en/2021/17mar2021sol-gelcoa... (accessed 2022-11-09).
dc.relation.referencesen	[10] Savvova, O.V. Biocide Apatite Glass-Ceramic Materials for Bone Endoprosthetics. Chem. Chem. Technol. 2013, 7, 109-112. https://doi.org/10.23939/chcht07.01.109
dc.relation.referencesen	[11] Savvova, O.V.; Bragina, L.L. Use of Titanium Dioxide for the Development of Antibacterial Glass Enamel Coatings. Glass Ce-ram. 2010, 67, 184-186. https://doi.org/10.1007/s10717-010-9258-8
dc.relation.referencesen	[12] Karasu, B.; Yüksel, G.; Uysal, N. The Recent Developments in Ceramic Glazes. Seramik [Online], 2020, 58, 116-128. https://www.researchgate.net/publication/344172770_The_Recent_Developmen... (accessed 2022-11-16).
dc.relation.referencesen	[13] Noguera, J.F.; Moreno, A.; Gozalbo, A.; Orts, M.J. Develop-ment of Ceramic Glaze Compositions with Bactericidal and Fungi-cidal Properties. Qualicer'10 Castellon (Spain) [Online] 2010. https://www.qualicer.org/recopilatorio/ponencias/pdfs/2010189.pdf (accessed 2022-11-16).
dc.relation.referencesen	[14] Özcan, S.; Çaliş Açikbaş, N.; Açikbaş, G. Formation of anti-bacterial effect on ceramic tile surfaces. Anadolu University Journal of Science and Technology A- Applied Sciences and Engineering [Online] 2017, 18, 122-130. https://doi.org/10.18038/aubtda.300424
dc.relation.referencesen	[15] Hrubec, T.C.; Melin, V.E.; Shea, C.S.; Ferguson, E.E.; Garofola, C.; Repine, C.M.; Chapman, T.W.; Patel, H.R.; Razvi, R.M.; Sugrue, J.E. et al. Ambient and Dosed Exposure to Quaternary Ammonium Disinfectants Causes Neural Tube Defects in Rodents. Birth Defects Research [Online] 2017, 109, 1166–1178. https://doi.org/10.1002/bdr2.1064 (accessed 2022-11-16).
dc.relation.referencesen	[16] Maryani, E, Nurjanah, N. S, Hadisantoso, E.P.; Wijayanti, R.B. The Effect of TiO2 Additives on the Antibacterial Properties (Escherichia coli and Staphylococcus aureus) of Glaze on Ceramic Tiles. IOP Conference Series: Materials Science and Engineering 2020, 980, 012011. https://doi.org/10.1088/1757-899X/980/1/012011
dc.relation.referencesen	[17] Hasmaliza, M.; Foo, H.S.; Mohd, K. Anatase as Antibacterial Material in Ceramic Tiles. Procedia Chem. 2016, 19, 828-834. https://doi.org/10.1016/j.proche.2016.03.109
dc.relation.referencesen	[18] Campbell, A.L. Ceramic glaze having antimicrobal property. US20090104459A1, 23 April 2009.
dc.relation.referencesen	[19] Kumar, G.D.; Mishra, A; Dunn, L.; Townsend, A.; Oguadinma, I.C.; Bright, K.R.; Gerba, C.P. Biocides and Novel Antimicrobial Agents for the Mitigation of Coronaviruses. Front. Microbiol. 2020, 11, A.1351. https://doi.org/10.3389/fmicb.2020.01351
dc.relation.referencesen	[20] Savvova, O.V.; Bragina, L. L.; Babich, E.V. Study of the Biocidal Properties of R2O–RO–TiO2–P2O5–R2O3–SiO2 Glass Ceramic Coatings. Glass Ceram. 2012, 69, 20–24. https://doi.org/10.1007/s10717-012-9407-3
dc.relation.referencesen	[21] Reinosa, J.J.; Rojo, M.M.; del Campo, A.; Martín-González, M.; Fernández J.F. Highly Efficient Antimicrobial Ceramics Based on Electrically Charged Interfaces. ACS Appl. Mater. Interfaces 2019, 11, 39254–39262. https://doi.org/10.1021/acsami.9b10690
dc.relation.referencesen	[22] Mäkelä, J.; Aromaa, M. UNCOAT – Enhanced Functionality of Selfcleaning and Antibacterial Surface Coatings. [Online] 2009, 06120. http://www.diva-portal.se/smash/get/diva2:707171/FULLTEXT01.pdf (accessed 2022-11-18)
dc.relation.referencesen	[23] Tapkire, G.V. Influence of Antimicrobial & Super Hydrophobic on Flooring Tiles. Int. res. j. eng. tech. 2018, 05, 1453-1456.
dc.relation.referencesen	[24] da Silva, A.L.; Dondi, M.; Hotza, D. Self-Cleaning Ceramic Tiles Coated with Nb2O5 Doped-TiO 2 Nanoparticles. Ceram. Int. 2017, 43, 11986-11991. https://doi.org/10.1016/j.ceramint.2017.06.049
dc.relation.referencesen	[25] Khorshidi, Z.G.; Jallab, M.; Moghbelli E.; Goudarzi, A.; Ghaf-fari, M. Photocatalytic Analysis of a Hydrophilic Acrylic Coating/ Zinc Oxide Nanocomposite on Glass Substrate. POLYM-PLAST TECH MAT 2021, 60, 1220-1232. https://doi.org/10.1080/25740881.2021.1888986
dc.relation.referencesen	[26] Savvova, O.V.; Shevetovsky, V.V.; Pokroeva, Ya.O.; Zinchenko, I.V.; Babich, O.V.; Voronov, H.K. Development of Antibacterial Glazing for Ceramic Tiles. Voprosy khimii i khimicheskoi tekhnologii 2022, 3, 60-66. https://doi.org/10.32434/0321-4095-2022-142-3-60-66
dc.relation.referencesen	[27] Kapoor, A.; Viraraghavan, T. Heavy Metal Biosorption Sites in Aspergillus niger. Bioresour. Technol. 1997, 61, 221-227. https://doi.org/10.1016/S0960-8524(97)00055-2
dc.relation.uri	https://www.marketsandmarkets.com/Market-Reports/ceramic-tiles-market-22..
dc.relation.uri	https://doi.org/10.18488/journal.29.2021.81.32.43
dc.relation.uri	http://www.icctas.com/pdf/magazine_2021.pdf
dc.relation.uri	https://doi.org/10.1039/D1TB00109D
dc.relation.uri	https://doi.org/10.1016/j.bioactmat.2021.01.030
dc.relation.uri	https://doi.org/10.1016/j.bioactmat.2021.04.033
dc.relation.uri	https://www.eu-japan.eu/sites/default/files/
dc.relation.uri	https://www.nsg.com/-/media/nsgcom/downloads/en/2021/17mar2021sol-gelcoa..
dc.relation.uri	https://doi.org/10.23939/chcht07.01.109
dc.relation.uri	https://doi.org/10.1007/s10717-010-9258-8
dc.relation.uri	https://www.researchgate.net/publication/344172770_The_Recent_Developmen..
dc.relation.uri	https://www.qualicer.org/recopilatorio/ponencias/pdfs/2010189.pdf
dc.relation.uri	https://doi.org/10.18038/aubtda.300424
dc.relation.uri	https://doi.org/10.1002/bdr2.1064
dc.relation.uri	https://doi.org/10.1088/1757-899X/980/1/012011
dc.relation.uri	https://doi.org/10.1016/j.proche.2016.03.109
dc.relation.uri	https://doi.org/10.3389/fmicb.2020.01351
dc.relation.uri	https://doi.org/10.1007/s10717-012-9407-3
dc.relation.uri	https://doi.org/10.1021/acsami.9b10690
dc.relation.uri	http://www.diva-portal.se/smash/get/diva2:707171/FULLTEXT01.pdf
dc.relation.uri	https://doi.org/10.1016/j.ceramint.2017.06.049
dc.relation.uri	https://doi.org/10.1080/25740881.2021.1888986
dc.relation.uri	https://doi.org/10.32434/0321-4095-2022-142-3-60-66
dc.relation.uri	https://doi.org/10.1016/S0960-8524(97)00055-2
dc.rights.holder	© Національний університет “Львівська політехніка”, 2023
dc.rights.holder	© Savvova O., Pokroieva Ya., Voronov H., Babich O., Smyrnova Yu., 2023
dc.subject	склокристалічні покриття
dc.subject	керамічна плитка
dc.subject	шовкова текстура
dc.subject	антибактеріальний ефект
dc.subject	гардистоніт
dc.subject	glass-ceramic coatings
dc.subject	ceramic tile
dc.subject	satin texture
dc.subject	antibacterial effect
dc.subject	hardystonite
dc.title	Antibacterial Matte Glass-Ceramic Coatings with Satin Texture for Ceramic Tiles
dc.title.alternative	Антибактеріальні матові склокристалічні покриття з шовковою текстурою для керамічної плитки
dc.type	Article

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Chemistry & Chemical Technology. – 2023. – Vol. 17, No. 3