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Silica on Silicon Carbide

2008; Taylor & Francis; Volume: 33; Issue: 1 Linguagem: Inglês

10.1080/10408430701718914

1547-6561

Volker Presser, Klaus G. Nickel,

Silicon Nanostructures and Photoluminescence

Abstract Silicon carbide (SiC) as both the most important non-oxide ceramic and promising semiconductor material grows stoichiometric SiO 2 as its native oxide. During passive oxidation, a surface transformation of SiC into silica takes place causing bulk volume and bulk mass increase. This review summarizes state-of-the-art information about the structural aspects of silicon carbide, silica, and SiC–SiO 2 interfaces and discusses physicochemical properties and kinetics of the processes involved. A special section describes the electronic properties of carbide–oxide interfaces, which are inferior compared to Si–SiO 2 interfaces, limiting the use of SiC-based electronics. In the oxidation of SiC there is a variety of parameters (e.g., porosity, presence of sintering aids, impurities, crystallographic orientation, surface treatment, and atmospheric composition) influencing the process. Therefore, the kinetics can be complex and will be discussed in detail. Nonetheless, a general linear-parabolic time-law can be found for most SiC materials for passive oxidation, thus indicating a mainly diffusion-controlled mechanism. The pronounced anisotropy of SiC expresses itself by quite different oxidation rates for the various crystallographic faces. Manifold impact factors are reflected by oxidation rate-constants for silicon carbide that vary over orders of magnitude. The understanding of SiC oxidation and silica formation is still limited; therefore, different oxidation models are presented and evaluated in the light of current knowledge. Keywords: silicasilicon carbidegrowth kineticsoxidationinterface ACKNOWLEDGMENTS This work was partially supported by the Deutsche Forschungsgemeinschaft (DFG) through Ni299/12-1. The authors thank (in alphabetical order): Valerie Afanas'ev (University of Leuven), Matthias Bickermann (University of Erlangen-Nürnberg), Kai-Chieh Chang (Seagate Technology, Pittsburgh), Fabien Devynck (Ecole Polytechnique Fédérale de Lausanne), Andrei Maltsev (Caracal Inc., Ford City), and Thomas Wagner (University of Tübingen) for much appreciated and most valuable discussion.