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Publikācija: Hydrophobic Properties of High Fe3+ Ion Containing Fe2O3-TiO2 Coatings

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Nosaukums oriģinālvalodā Hydrophobic Properties of High Fe3+ Ion Containing Fe2O3-TiO2 Coatings
Pētniecības nozare 1. Dabaszinātnes
Pētniecības apakšnozare 1.4. Ķīmija
Autori Anzelms Zukuls
Gundars Mežinskis
Atslēgas vārdi Fe2O3-TiO2, Sol-gel, hydrophobic coatings
Anotācija The treatment of environmental pollution using semiconductor photo catalysis converts contaminants to innocuous products, such as CO2 and H2O. The most promising semiconductor photo catalysts are titania based materials. However, the main drawback of titania anatase polymorph is the large band gap which limits the spectrum of photons that can create electron−hole pairs to participate in oxidation or reduction. In this study Fe2O3–TiO2 coatings were successfully prepared on soda-lime silicate glass slide substrates using sol–gel method. Coating surface and morphology has been studied using X-ray diffraction (XRD), field emission scanning electron microscopy (FESEM) and atomic force microscopy (AFM). Coatings were obtained using dip-coating method. The present research is devoted to the studies of aging time and heat treatment effects on films hydrophobicity. The purpose of this contribution was the development of iron oxide rich Fe2O3–TiO2 hydrophobic thin films depending on different preparation parameters. SEM and AFM investigation revealed the formation of two layered, porous coating microstructure consisting of rough flattened areas which formed the backbone for irregularly shaped particles.
DOI: 10.1088/1757-899X/251/1/012109
Hipersaite: http://iopscience.iop.org/article/10.1088/1757-899X/251/1/012109/meta 
Atsauce Zukuls, A., Mežinskis, G. Hydrophobic Properties of High Fe3+ Ion Containing Fe2O3-TiO2 Coatings. IOP Conference Series: Material Science and Engineering, 2017, Vol.251: 3rd International Conference on Innovative Materials, Structures and Technologies (IMST 2017), 1.-7.lpp. ISSN 1757-8981. e-ISSN 1757-899X. Pieejams: doi:10.1088/1757-899X/251/1/012109
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  • Scopus  0
ID 25896