Microstruture and surface characteristics evolution of mesoporous multiple spin-coated titania films

Microstruture and surface characteristics evolution of mesoporous multiple spin-coated titania films

Multilayer nanocrystalline mesoporous titania films were synthesized using the layer-by-layer deposition and surfactant-assisted sol-gel methods on glass substrates. The thickness, morphology and surface roughness of the films were systematically investigated using field emission scanning electron m...

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Bibliographic Details
Published in:Thin solid films Vol. 619; pp. 353 - 358
Main Authors: Geramipour, Toktam, Oveisi, Hamid
Format: Journal Article
Language:English
Published: Elsevier B.V 30-11-2016
Subjects:
Layer-by-layer technique
Mesoporous
Multilayer film
Surface roughness
Titania film
Surface roughness
Multilayer film
Mesoporous
Titania film
Layer-by-layer technique
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Summary:Multilayer nanocrystalline mesoporous titania films were synthesized using the layer-by-layer deposition and surfactant-assisted sol-gel methods on glass substrates. The thickness, morphology and surface roughness of the films were systematically investigated using field emission scanning electron microscopy (FE-SEM) and atomic force microscopy (AFM). Multilayer films were manufactured by repeated spin coating followed by heat treatment at 250°C for 1h after each deposition, and a final calcination at 400°C for 4h. Multilayer films with completely uniform thicknesses between 470nm–1.85μm and without clear interfaces were obtained by 1–6 coating cycles. The X-ray diffraction (XRD) analysis demonstrated 9.60nm anatase crystallites. Interestingly, AFM analysis indicated that the root mean square (rms) surface roughness of the films was significantly reduced from 3.11 to 1.03nm by increasing the deposited layers from 1 to 6. Moreover, power spectral density (PSD) analysis revealed that the roughness exponent and fractal dimension values of all films fall within the range of 0.48–0.53 and 2.47–2.52, respectively. This suggests that while the first titania layer exhibits a coarse microstructure, it acts as an intermediate layer in the formation of improved microstructures by eliminating the lattice mismatch between the glass substrate and subsequent titania depositions. Altogether, our results demonstrate the formation of self-affine surfaces with quite similar dynamics evolution of roughness formation either on the glass substrate or titania layer. •Multilayer mesoporous titania film•Uniform mesopores•Nanocrystalline walls
ISSN:0040-6090
1879-2731
DOI:10.1016/j.tsf.2016.10.030