Optimization of Heat Transfer Design for High Quality 4H-SiC Ingot Growth

Seung Jun Lee; Su Ho Kim; Chae Young Lee; Jong Hwi Park; Jung Woo Choi; Hyong Suk Lee; Jung Gyu Kim; Kap Ryeol Ku; Min Kyu Kang; Won Jae Lee

doi:10.4028/p-LSSn44

Paper Titles

Epitaxial SiC Development for High Nitrogen Incorporation
p.17

The 4H-SiC Epitaxy Study of Ammonia Doping
p.23

Formation of Alternating Epilayers of 4H-SiC and 3C-SiC by Simultaneous Lateral Epitaxy
p.33

Predictive Doping and Thickness Analysis of a Multi-Wafer SiC Warm-Wall Epi Reactor for Improved Layer Cpks
p.43

Recent Advancement in Noncontact Wafer Level Electrical Characterization for WBG Technologies
p.49

Active Planarization Method from Rough Surface of 4º-off 4H-SiC (0001) Controlled by Step Bunching and Debunching Mechanism Using Dynamic AGE-ing^®
p.57

The Application of Dynamical Thermal Annealing Processes after Mechanical Slicing as an Integrated Contactless SiC Wafering Method to Control Crystal Defects
p.63

Optimization of Heat Transfer Design for High Quality 4H-SiC Ingot Growth
p.69

High-Quality SiC Crystal Growth by Cooldown Rate Control at Cooling Stage
p.75

HomeMaterials Science ForumMaterials Science Forum Vol. 1157Optimization of Heat Transfer Design for High...

Optimization of Heat Transfer Design for High Quality 4H-SiC Ingot Growth

Abstract:

At the high growth temperatures of the PVT method, thermal radiation from the graphite crucible surface to the seed region is the dominant mode of heat transfer. In this study, we propose a newly designed crucible structure with a thinner graphite wall compared to the conventional design for SiC crystal growth. The SiC ingot grown using the conventional crucible exhibited the smallest thickness variation (flat top surface) between the center and the edge of the ingot, accompanied by polytype inclusions, which led to an increase in defect density. In contrast, SiC ingots grown using the newly designed crucibles (Design A and Design B) showed a convex top surface and a significantly lower defect density due to the improved heat transfer efficiency. Thinning the graphite crucible wall helps maintain a relatively higher temperature at the seed edge region, thereby effectively enhancing thermal radiation in the radial direction inside the crucible. These results indicate that thermal radiation in the radial direction can be achieved through appropriate optimization of the graphite wall thickness.

By email View Pdf

You have full access to the following eBook

Read eBook

Info:

Periodical:

Materials Science Forum (Volume 1157)

Pages:

69-73

DOI:

https://doi.org/10.4028/p-LSSn44

Citation:

Cite this paper

Online since:

September 2025

Authors:

Seung Jun Lee, Su Ho Kim, Chae Young Lee, Jong Hwi Park, Jung Woo Choi, Hyong Suk Lee, Jung Gyu Kim, Kap Ryeol Ku, Min Kyu Kang, Won Jae Lee*

Keywords:

Hot Zone, Optimizing Heat Transfer, Physical Vapor Transport (PVT), Polytype Stabilization, Temperature Gradient

Export:

RIS, BibTeX

Permissions:

Creative Commons CC BY 4.0

Citation:

* - Corresponding Author

References

[1] A. R. Powell, J. J. Sumakeris, Y. Khlebnikov, M. J. Paisley, R.T. Leonard, E. Deyneka, S. Gangwal, J. Ambati, V. Tsevtkov, J. Seaman, A. McClure, C. Horton, O. Kramarenko, V. Sakhalkar, M. O'Loughlin, A. A. Burk, J. Q. Guo, M. Dudley, E. Balkas, Bulk growth of large area SiC crystals, Materials Science Forum 858 (2016) 5-10.

DOI: 10.4028/www.scientific.net/msf.858.5

Google Scholar

[2] E. Y. Tupitsyn, A. Arjunan, R. T. Bondokov, R. M. Kennedy, T. S. Sudarshan, A study of 6H-seeded 4H-SiC bulk growth by PVT, Mater. Sci. Forum 483-485 (2005) 21-24.

DOI: 10.4028/www.scientific.net/msf.483-485.21

Google Scholar

[3] A. Kumar, M. S. Aspalli, SiC : an advanced semiconductor material for power devices, IJRET, Vol. 3 (2014) 248-252.

Google Scholar

[4] M. Arzig, M. Salamon, T. C. Hsiao, N. Uhlmann, P. J. Wellmann, Influence of the growth interface shape on the defect characteristics in the facet region of 4H-SiC single crystals, Journal of Crystal Growth 532 (2020) 125436.

DOI: 10.1016/j.jcrysgro.2019.125436

Google Scholar

[5] Z.G. Herro, B.M. Epelbaum, M. Bickermann, P. Masri, A. Winnacker, Effect increase of single-crystalline yield during PVT growth of SiC by tailoring of temperature gradient, Journal of Crystal Growth 262 (2004) 105-112.

DOI: 10.1016/j.jcrysgro.2003.10.060

Google Scholar