Modelling and HRTEM computer simulation of facetting of SnO2 nanostructures deposited by spray pyrolysis on glass substrates
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ROSSINYOL, Emma, ARBIOL, Jordi, PEIRO, Francesca, CORNET, Albert, MORANTE, J. R., BRYNZARI, Vladimir, KOROTCHENKOV, Ghenadii, GOLOVANOV, Vyacheslav. Modelling and HRTEM computer simulation of facetting of SnO2 nanostructures deposited by spray pyrolysis on glass substrates. In: Design and Nature: II: Comparing Design in Nature with Science and Engineering, Ed. 2, 28 iunie 2004, Virginia. WIT, 2004, Ediția 2, Vol.6, pp. 79-82. ISBN 9781853127212, 1853127213.
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Design and Nature
Ediția 2, Vol.6, 2004
Conferința "Design and Nature II: Comparing Design in Nature with Science and Engineering"
2, Virginia, Statele Unite ale Americii, 28 iunie 2004

Modelling and HRTEM computer simulation of facetting of SnO2 nanostructures deposited by spray pyrolysis on glass substrates


Pag. 79-82

Rossinyol Emma1, Arbiol Jordi1, Peiro Francesca1, Cornet Albert1, Morante J. R.1, Brynzari Vladimir2, Korotchenkov Ghenadii2, Golovanov Vyacheslav3
 
1 University of Barcelona,
2 Technical University of Moldova,
3 South Ukrainian National Pedagogical University named after K. D. Ushynsky, Odessa
 
 
Disponibil în IBN: 20 iunie 2023


Rezumat

SnO2 thin films grown by spray pyrolysis on glass substrates have been studied. The evolution of the crystallographic orientation of these films (35-300nm) with the variation of the pyrolysis temperature (300°C - 530≤C) is reported. Samples have been characterised by X-ray diffraction and high resolution transmission electron microscopy. Some atomic models of grain growth for each pyrolysis temperature have been proposed. These models have been tested by computer image simulation in order to compare with the experimental images

Cuvinte-cheie
Engineering controlled terms Crystallography, High resolution electron microscopy, Nanostructured materials, pyrolysis, thin films, Tin compounds, Transmission electron microscopy Engineering uncontrolled terms Atomic models, Gas detection, Growth control, Image simulation Engineering main heading Glass