Multifunctional composite coatings consisting of polymers and zinc oxide nanoparticles for the protection of stone heritage

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Published: Jun 18, 2024
DOI: https://doi.org/10.12681/monubasin.8343
Ioannis Karapanagiotis
Panagiotis Manoudis
Ioannis Zuburtikudis
Hadil Abu Khalifeh
Abstract

Extended Abstract available on the PDF.

Article Details
  • Section
  • Part VII - Technologies for Damage Rehabilitation and Sustainable Preservation

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Author Biographies
Ioannis Karapanagiotis

Department of Chemistry, Aristotle University of Thessaloniki, Thessaloniki, Greece

Panagiotis Manoudis

Lysis Consulting P.C., Aristotle University of Thessaloniki, Thessaloniki, Greece

Ioannis Zuburtikudis

Department of Chemical Engineering, Abu Dhabi University, Abu Dhabi, United Arab Emirates

Hadil Abu Khalifeh

Department of Chemical Engineering, Abu Dhabi University, Abu Dhabi, United Arab Emirates

References
W. Barthlott, C. Neinhuis, “Purity of the sacred lotus, or escape from contamination in biological surfaces,” Planta, vol. 202, pp. 1-8, 1997.
P. Manoudis, S. Papadopoulou, I. Karapanagiotis, A. Tsakalof, I. Zuburtikudis, C. Panayiotou, “Polymer-silica nanoparticles composite films as protective coatings for stone-based monuments,” J. Phys. Conf. Ser., vol. 6, pp. 1361-1365, 2007.
G. Wheeler, Alkoxysilanes and the Consolidation of Stone. Los Angeles, CA: The Getty Conservation Institute, 2005.
A. Sierra-Fernandez, L.S. Gomez-Villalba, M.E. Rabanal, R. Fort, “New nanomaterials for applications in conservation and restoration of stony materials: a review,” Mater. Constr., vol. 67, No 107, 2017.
M. Frigione, M. Lettieri, Novel attribute of organic–inorganic hybrid coatings for protection and preservation of materials (stone and wood) belonging to cultural heritage, Coatings, vol. 8, No 319, 2018.
I. Karapanagiotis, P.N. Manoudis, “Superhydrophobic and superamphiphobic materials for the conservation of natural stone: An overview,” Constr. Build. Mater., vol. 320, No 126175, 2022.
A.B.D. Cassie, S. Baxter, “Wettability of porous surfaces,” Trans. Faraday Soc., vol. 40, pp. 546-951, 1944.
J. Tokarský, P. Martinec, K. Mamulová Kutláková, H. Ovčačiková, S. Študentová, J. Ščučka, “Photoactive and hydrophobic nano-ZnO/poly (alkyl siloxane) coating for the protection of sandstone,” Constr. Build Mater., vol. 199, pp. 549-559, 2019.
M.A. Aldosari, S.S. Darwish, M.A. Adam, N.A. Elmarzugi, S.M. Ahmed, “Using ZnO nanoparticles in fungal inhibition and self-protection of exposed marble columns in historic sites,” Archaeol. Anthrop. Sci., vol. 11, pp. 3407-3422, 2019.
P.N. Manoudis, Z. Chughtai, V. Tsiridis, S.P. Evgenidis, P.K. Spathis, T.D. Karapantsios, I. Karapanagiotis, “Tuning the wettability of a commercial silane product to induce superamphiphobicity for stone protection,” Coatings. vol. 13, No. 700, 2023.