Growth and doping of silicon carbide with germanium: a review

Abstract: This paper review the research works made so far in associating Ge isoelectronic element to SiC crystals, either by incorporating it inside SiC matrix or for assisting SiC epitaxial growth. The incorporation mechanism and level of incorporation of Ge in SiC during crystal growth with different techniques (sublimation, chemical vapor deposition, vapor-liquid-solid) are compared and discussed. Ge doping level as high as 2-3x10 20 at.cm -3 can be reached without affecting SiC crystalline quality but generating so… Show more

“…The internal bond energy of N 2 itself is high, and even at a high temperature of 1570 °C, the number of N atoms generated by decomposition is very limited. 21 Therefore, simply increasing the flow rate of N 2 does not correspondingly increase the number of doping atoms entering the substrate and thus the doping concentration. Additionally, due to the acceleration of the growth rate, the doping concentration will decrease accordingly.…”

“…The internal bond energy of N 2 itself is high, and even at a high temperature of 1570 °C, the number of N atoms generated by decomposition is very limited. 21 Therefore, simply increasing the ow rate of N 2 Fig. 1 Growth rate and thickness uniformity under different source gas flow rates.…”

Effect of TCS gas flow and pre-etching on homopitaxial growth of 4H-SiC

“…The internal bond energy of N 2 itself is high, and even at a high temperature of 1570 °C, the number of N atoms generated by decomposition is very limited. 21 Therefore, simply increasing the flow rate of N 2 does not correspondingly increase the number of doping atoms entering the substrate and thus the doping concentration. Additionally, due to the acceleration of the growth rate, the doping concentration will decrease accordingly.…”

“…The internal bond energy of N 2 itself is high, and even at a high temperature of 1570 °C, the number of N atoms generated by decomposition is very limited. 21 Therefore, simply increasing the ow rate of N 2 Fig. 1 Growth rate and thickness uniformity under different source gas flow rates.…”

Effect of TCS gas flow and pre-etching on homopitaxial growth of 4H-SiC

“…For 4H-SiC, the most common semi-insulating impurity is vanadium (V), which is often incorporated during substrate or epitaxial growth [4]. Recently, the introduction of germanium (Ge) has shown interest and yielded some potential benefits via epitaxy [5] or implantation [6] into SiC, with lower Z1/2 levels [7], higher mobility [8] and higher conductivity [9]. However, less is known about the combination of Ge with additional n-type compensation doping.…”

A Study of High Resistivity Semi-Insulating 4H-SiC Epilayers Formed via the Implantation of Germanium and Vanadium

Homogeneous Growth of 3C-SiC Crystal Surface at Solid–Liquid Interface and Its Competitive Relationship