Factors affecting the formation of misoriented domains in 6H‐SiC single crystals grown by PVT method

Peng, Tianhuan; Yang, Hong; Jian, Jikang; Wang, W. J.; Wang, W. Y.; Chen, X. L.

doi:10.1002/crat.200800581

Cited by 12 publications

(8 citation statements)

References 23 publications

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“…Nonintentional doped 4 H -SiC single crystals were grown by PVT in our laboratory, and details have been reported elsewhere (Li et al , 2003, 2004; Peng et al , 2009). A wafer sliced from a crystal boule was first examined by Raman scattering.…”

Section: Methodsmentioning

confidence: 99%

Debye temperature of 4H-SiC determined by X-ray powder diffraction

et al. 2009

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Section: Methodsmentioning

confidence: 99%

Debye temperature of 4H-SiC determined by X-ray powder diffraction

et al. 2009

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“…Growth parameters like temperature, pressure, and supersaturation have a strong influence on the SiC polytype during the physical vapor transport (PVT) process. By adjusting these three factors, the growth characteristics of 4H and 6H SiC can be changed, and the transition between 4H-SiC and 6H-SiC can also be observed. − Other factors such as impurities, surface types, offsets of the substrate, and atmospheric conditions are also important for the synthesis of SiC with a specific polytype in the PVT method. − For SiC obtained by the chemical vapor deposition (CVD) method, 3C-SiC is the typical polytype . However, by proper selection of precursor and controlled synthesis parameters, 2H-SiC, 4H-SiC, and 6H-SiC can also be obtained. − During the CVD process, the SiC polytype has a close relationship with the silicon-to-carbon (Si/C) ratio.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Growth of 6H-SiC and 3C-SiC in an Al–Si–C System at 820 °C: Effect of the Reaction Path on the SiC Polytype

Gao

Nie

et al. 2020

Crystal Growth & Design

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Many of the properties of SiC are decided by the polytype. In the present work, the effect of the reaction path on the SiC polytype is studied. Two kinds of SiC particles were prepared at 820 °C in an Al–Si–C system. Results show that 6H-SiC with a hexagonal structure and 3C-SiC with a face-centered cubic structure were obtained separately with a liquid–solid reaction and master alloy method. Further research revealed that 6H-SiC was formed via a one-step reaction with graphite as the precursor, while 3C-SiC was synthesized via a two-step reaction with Al4C3 as the intermediate product and precursor. A different reaction path and precursors result in a different growth process. 6H-SiC was grown under a polynuclear multilayer growth mechanism, while 3C-SiC was grown by a multiregion transition of Al4C3.

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“…On top of these, SiC single crystal is attractive for being the substrate in the heteroepitaxial growth of other important materials [5][6][7]. These applications require polytypic stable, large diameter SiC single crystals with low density of defects including micropipes, voids, dislocations, domains and stacking faults [8][9][10][11][12][13][14][15][16][17][18][19]. However, there are still issues need to be addressed in order to meet the increasing demands of high quality in some specific fields of applications.…”

Section: Introductionmentioning

confidence: 99%

Characterizations and formation mechanism of a new type of defect related to nitrogen doping in SiC crystals

et al. 2014

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Here, we report a commonly occurring defect related to nitrogen doping in silicon carbide crystals grown by physical vapor transport method while its formation mechanism has remained unclear. It is often mislabeled as planar hexagonal void defect (PHVD) owing to their similar in shape and size on wafer surface. Our results indicate that this is a new type of defect and differs from PHVD with respect to their nitrogen concentrations, void shapes and the connections to micropipe. We found that the carbon-rich vapor during the crystal growth is responsible for the formation of this type of defect. A possible three-stage defect developing mechanism and measures to avoid the defects are proposed.

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Factors affecting the formation of misoriented domains in 6H‐SiC single crystals grown by PVT method

Cited by 12 publications

References 23 publications

Debye temperature of 4H-SiC determined by X-ray powder diffraction

Debye temperature of 4H-SiC determined by X-ray powder diffraction

Synthesis and Growth of 6H-SiC and 3C-SiC in an Al–Si–C System at 820 °C: Effect of the Reaction Path on the SiC Polytype

Characterizations and formation mechanism of a new type of defect related to nitrogen doping in SiC crystals

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