Your search keyword '"Kordina, Olof"' showing total 6 results

1. Chloride-Based SiC Epitaxial Growth toward Low Temperature Bulk Growth

Author

Leone, Stefano, Beyer, Franziska C., Henry, Anne, Hemmingsson, Carl, Kordina, Olof, and Janzén, Erik

Abstract

In this study, chloride-based chemical vapor deposition (CVD) of SiC is used either to grow epitaxial layers at high growth rate and to facilitate homopolytypic growth on on-axis substrates or to grow bulk material at temperatures lower than 2000 °C. A vertical reactor configuration with an inlet of gas flow placed at the bottom of the reactor chamber and the exhaust at the top of it has been used. The chlorinated precursors have helped to eliminate or greatly reduce cluster formation, thereby allowing the deposition of thick SiC epilayers at growth rates exceeding 300 μm/h at 1700−1900 °C. Up to 1.5 mm thick homoepitaxial layers have been grown on up to 75 mm diameter 4H- or 6H-SiC wafers. Both on-axis and off-axis, Si-face and C-face polarities have been used. Our results show great promise for the realization of a high growth rate epitaxial process suitable for bulk growth at temperatures lower than those typically used. Such a process is interesting on account of the higher quality material and lower operating cost.

Published

2024

2. Carrier Lifetime Controlling Defects Z1/2 and RB1 in Standard and Chlorinated Chemistry Grown 4H-SiC

Author

Booker, Ian D., primary, Hassan, Jawad Ul, additional, Lilja, Louise, additional, Beyer, Franziska C., additional, Karhu, Robin, additional, Bergman, J. Peder, additional, Danielsson, Örjan, additional, Kordina, Olof, additional, Sveinbjörnsson, Einar Ö., additional, and Janzén, Erik, additional

Published

2014

3. Gas-Phase Modeling of Chlorine-Based Chemical Vapor Deposition of Silicon Carbide

Author

Leone, Stefano, primary, Kordina, Olof, additional, Henry, Anne, additional, Nishizawa, Shin-ichi, additional, Danielsson, Örjan, additional, and Janzén, Erik, additional

Published

2012

4. High Growth Rate of 4H-SiC Epilayers on On-Axis Substrates with Different Chlorinated Precursors

Author

Leone, Stefano, primary, Beyer, Franziska C., additional, Pedersen, Henrik, additional, Kordina, Olof, additional, Henry, Anne, additional, and Janzén, Erik, additional

Published

2010

5. Chloride-Based SiC Epitaxial Growth toward Low Temperature Bulk Growth

Author

Leone, Stefano, primary, Beyer, Franziska C., additional, Henry, Anne, additional, Hemmingsson, Carl, additional, Kordina, Olof, additional, and Janzén, Erik, additional

Published

2010

6. Gas-Phase Modeling ofChlorine-Based Chemical Vapor Deposition of Silicon Carbide.

Author

Leone, Stefano, Kordina, Olof, Henry, Anne, Nishizawa, Shin-ichi, Danielsson, Örjan, and Janzén, Erik

Subjects

*CHEMICAL vapor deposition, *EPITAXY, *CHLORINE, *SILICON carbide, *GAS phase reactions, *CHEMICAL kinetics, *TEMPERATURE effect

Abstract

Kinetic calculations of the chemical phenomena occurringin the epitaxial growth of silicon carbide are performed in this study.The main process parameters analyzed are precursor types, growth temperature,Cl/Si ratio, and precursors’ concentration. The analysis ofthe gas-phase reactions resulted in a model which could explain mostof the already reported experimental results, performed in horizontalhot-wall reactors. The effect of using different carbon or siliconprecursors is discussed, by comparing the gas-phase composition andthe resulting C/Si ratio inside the hot reaction chamber. Chlorinatedmolecules with three chlorine atoms seem to be the most efficientand resulting in a uniform C/Si ratio along the susceptor coordinate.Further complexity in the process derives from the use of low temperatures,which affects not only the gas-phase composition but also the riskof gas-phase nucleation. The Cl/Si ratio is demonstrated to be crucialnot only for the prevention of silicon clusters but also for the uniformityof the gas-phase composition. [ABSTRACT FROM AUTHOR]

Published

2012