Yaroslav Koshka scite author profile

SiC nanowires were grown on monocrystalline 4H-SiC wafers by chemical vapor deposition using the vapor-liquid-solid growth mode. The growth direction of the nanowires was dictated by the crystallographic orientation of the 4H-SiC substrates. Two distinct types of nanowires were obtained. The first type crystallized in the 3C polytype with the AE111ae nanowire axes. These nanowires grew at 20°with respect to the substrate c-planes and exhibited high densities of stacking faults on those {111} planes that are parallel to the substrate c-planes. The second type featured the 4H structure albeit with a strong stacking disorder. The stacking faults in these nanowires were perpendicular to the [0001] nanowire axes. Possible growth mechanisms that led to the formation of 3C and 4H polytypes are discussed.

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Effect of HCl addition on gas-phase and surface reactions during homoepitaxial growth of SiC at low temperatures

Melnychuk

Lin

Kotamraju

et al. 2008

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A complex influence of HCl addition on gas-phase and surface reactions during the low-temperature halo-carbon homoepitaxial growth of 4H-SiC was investigated. The addition of HCl was employed to reduce the undesirable effects of homogeneous gas-phase nucleation leading to formation of silicon clusters in the gas phase. It was established that dissociation of silicon clusters by HCl is efficient even at untraditionally low homoepitaxial growth temperature below 1300 °C. The information about the spatial distribution of this dissociation process along the gas flow direction was obtained. It was established that the influence of HCl is more complicated than the simple model suggesting that the enhanced dissociation of silicon clusters in the gas phase leads to an additional supply of silicon species for the epitaxial growth. While the growth rate does significantly increase at least for some HCl flow rates, complex changes in the effective silicon-to-carbon ratio in the growth zone of the reactor indicate that the supply of carbon species may also be enhanced at least at low HCl flow rates. This fact supports the hypothesis that the gas-phase clusters may contain a significant amount of carbon in addition to silicon. Also, the magnitude of the growth rate enhancement was found to be less significant than what was expected from the apparent degree of the cluster dissociation. Evidence of a new mechanism for precursors’ depletion are provided. Pronounced changes in the pattern of the polycrystalline deposits at the upstream portion of the hot zone of the reactor were caused by the HCl addition. Premature dissociation of the gas-phase clusters and release of silicon may cause depletion of silicon by vigorous polycrystalline deposition. Depending on the kinetics of the process, the carbon species may also get depleted by the polycrystalline deposition mechanism. This mechanism partially reduces the benefits of the HCl addition unless its influence is minimized.

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Low-temperature homoepitaxial growth of 4H–SiC with CH3Cl and SiCl4 precursors

Kotamraju

Krishnan

Melnychuk

et al. 2010

Journal of Crystal Growth

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Yaroslav Koshka

Chloride-Based CVD Growth of Silicon Carbide for Electronic Applications

Epitaxial growth of 4H–SiC at low temperatures using CH3Cl carbon gas precursor: Growth rate, surface morphology, and influence of gas phase nucleation

Substrate-Dependent Orientation and Polytype Control in SiC Nanowires Grown on 4H-SiC Substrates

Effect of HCl addition on gas-phase and surface reactions during homoepitaxial growth of SiC at low temperatures

Low-temperature homoepitaxial growth of 4H–SiC with CH3Cl and SiCl4 precursors

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