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Article Dans Une Revue Thin Solid Films Année : 2005

Growth mechanism and characterization of chemical oxide films produced in peroxide mixtures on Si(100) surfaces

Résumé

The growth kinetics of silicon chemical oxides in H2O2-containing solutions at various pH values and temperatures was studied by electrochemical impedance spectroscopy (EIS), ellipsometry and X-ray photoelectron spectroscopy. Infrared (IR) spectroscopy was also used to investigate the evolution of the surface chemistry from the initial hydrogen coverage as Si–H bonds to the subsequent oxidation states by analysing the Si–O–Si stretching vibration modes. Successive EIS diagrams obtained as a function of time constituted a series of semicircles indicating that the semiconductor/oxide/electrolyte junction can be modelled as a resistance-capacity (RC) circuit. It was then observed that the resistance term increased with time to almost 1 MΩ cm2 after 3 h in SC1 solution. It is generally known that, in alkaline solutions such as SC1, the oxidation rate reaches rapidly a steady regime controlled by the interfacial charge transfer reaction and the subsequent dissolution of the generated oxide. Accordingly, a mechanism involving a diffusion process of reactants through the oxide barrier followed by a simultaneous dissolution of the layer is proposed. Likewise, in acidic media such as SC2, even though the solubility is extremely low, we have extended our model based on the competition between the oxidation rate at the surface and the dissolution of the built-up oxide, and thus it was possible to evidence oxide solubility at the nanoscopic scale. In addition, thickness measurements by ellipsometry together with the observed gradual change in the IR spectrum of the Si–O–Si vibration mode were interesting parameters revealing that the oxide growth proceeds simultaneously with an evolution of the structure leading to a more compact and insulating dielectric layer. The whole of the results lead to a model for the oxidation process accounting for the observed structure and complex impedance properties under various conditions of chemical treatment

Domaines

Matériaux

Dates et versions

hal-00417403 , version 1 (15-09-2009)

Identifiants

Citer

S. Petididier, V. Bertagna, N. Rochat, Denis Rouchon, P. Besson, et al.. Growth mechanism and characterization of chemical oxide films produced in peroxide mixtures on Si(100) surfaces. Thin Solid Films, 2005, 476 (1), pp. 51-58. ⟨10.1016/j.tsf.2004.09.008⟩. ⟨hal-00417403⟩
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