Investigation of the properties of Sb doping on tin oxide SNO2materials for technological applications

Z. Hachoun; A. Ouerdane; M. Bouslama; M. Ghaffour; A. Abdellaoui; Y. Caudano; A. Ali Benamara

doi:10.1088/1757-899X/123/1/012029

Investigation of the properties of Sb doping on tin oxide SNO₂materials for technological applications

Z. Hachoun, A. Ouerdane, M. Bouslama, M. Ghaffour, A. Abdellaoui, Y. Caudano, A. Ali Benamara

Résultats de recherche: Contribution à un journal/une revue › Article › Revue par des pairs

Résumé

The conductivities of the oxide SnO₂ is dependent on the nature of the surrounding gas. This property stems from the adsorption or desorption on the surface of oxide grains. These phenomena are usually accompanied by electronic transfer between the adsorbed molecule and the semiconductor material, changing its conductivity. Tin oxidation and Sb doping were realized without and with heating process. The XPS technique and the TEM microscopy showed the synthesized nanocrystals. Simulated Monte Carlo program Casino is used for a scanning its profile. The surface characteristics are highlighted in the aim to be used as spatial gas sensors.

langue originale	Anglais
Numéro d'article	012029
journal	IOP Conference Series: Materials Science and Engineering
Volume	123
Numéro de publication	1
Les DOIs	https://doi.org/10.1088/1757-899X/123/1/012029
Etat de la publication	Publié - 15 avr. 2016
Modification externe	Oui

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10.1088/1757-899X/123/1/012029

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Optique, Lasers et spectroscopies
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title = "Investigation of the properties of Sb doping on tin oxide SNO2materials for technological applications",

abstract = "The conductivities of the oxide SnO2 is dependent on the nature of the surrounding gas. This property stems from the adsorption or desorption on the surface of oxide grains. These phenomena are usually accompanied by electronic transfer between the adsorbed molecule and the semiconductor material, changing its conductivity. Tin oxidation and Sb doping were realized without and with heating process. The XPS technique and the TEM microscopy showed the synthesized nanocrystals. Simulated Monte Carlo program Casino is used for a scanning its profile. The surface characteristics are highlighted in the aim to be used as spatial gas sensors.",

author = "Z. Hachoun and A. Ouerdane and M. Bouslama and M. Ghaffour and A. Abdellaoui and Y. Caudano and {Ali Benamara}, A.",

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AU - Hachoun, Z.

AU - Ouerdane, A.

AU - Bouslama, M.

AU - Ghaffour, M.

AU - Abdellaoui, A.

AU - Caudano, Y.

AU - Ali Benamara, A.

PY - 2016/4/15

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N2 - The conductivities of the oxide SnO2 is dependent on the nature of the surrounding gas. This property stems from the adsorption or desorption on the surface of oxide grains. These phenomena are usually accompanied by electronic transfer between the adsorbed molecule and the semiconductor material, changing its conductivity. Tin oxidation and Sb doping were realized without and with heating process. The XPS technique and the TEM microscopy showed the synthesized nanocrystals. Simulated Monte Carlo program Casino is used for a scanning its profile. The surface characteristics are highlighted in the aim to be used as spatial gas sensors.

AB - The conductivities of the oxide SnO2 is dependent on the nature of the surrounding gas. This property stems from the adsorption or desorption on the surface of oxide grains. These phenomena are usually accompanied by electronic transfer between the adsorbed molecule and the semiconductor material, changing its conductivity. Tin oxidation and Sb doping were realized without and with heating process. The XPS technique and the TEM microscopy showed the synthesized nanocrystals. Simulated Monte Carlo program Casino is used for a scanning its profile. The surface characteristics are highlighted in the aim to be used as spatial gas sensors.

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Investigation of the properties of Sb doping on tin oxide SNO2materials for technological applications

Résumé

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Optique, Lasers et spectroscopies

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Investigation of the properties of Sb doping on tin oxide SNO₂materials for technological applications