Add to ORKGGexSi1-x epilayers were grown at 700-900 degrees C by atmospheric pressure chemical vapour deposition. GexSi1-x, Si and Ge growth rates as functions of GeH4 flow are considered separately to investigate how the growth of the epilayers is enhanced. Arrhenius plots of Si and Ge incorporation in the GexSi1-x growth show the activation energies associated with the growth rates are about 1.2 eV for silicon and 0.4 eV for germanium, indicating that Si growth is limited by surface kinetics and Ge growth is limited by mass transport. A model based on this idea is proposed and used to simulate the growth of GexSi1-x. The calculation and experiment are in good agreement. Growth rate and film composition increase monotonically with growth pressure; bo...
The epitaxial growth of Si and SixGe1-x alloys from molecular beams of gaseous Si (Si2H6) and Ge (Ge...
The selective epitaxial growth of Si1-xGex and the related strain properties were studied. Epitaxial...
The growth of intrinsic SiGe and, n- and p-type doping of Si and SiGe layers was studied using a Red...
A numerical model that combines mass transport and surface kinetics was applied, for the first time,...
Low-temperature epitaxial growth of undoped and doped Si1-xGex films on the Si(100) surface at 550°C...
A Langmuir–Hinshelwood‐type kinetic model is developed for modeling growth of silicon–germanium allo...
A Langmuir-Hinshelwood growth-rate equation is presented for the germanium-silicon (GeSi) alloy depo...
Low temperature (similar to 500 degrees C) growth properties of Si1-xGex by disilane and solid-Ge mo...
Si1-xGex films were epitaxially grown on Si(001) substrates at various ratios of flow rates of Si2H6...
As the present Si Technology is reaching its physical and technological limits, the trend for the fu...
High quality germanium (Ge) epitaxial film is grown directly on silicon (001) substrate using a “thr...
The goal of this study is to obtain fundamental process-property relationships for the SiGe epitaxia...
The growth rate R of Si(001), Ge(001), and $\rm Si\sb{1-x}Ge\sb{x}(001)$ films deposited on Si(001)2...
The quality of germanium (Ge) epitaxial film grown directly on a silicon (Si) (001) substrate with 6...
Low temperature epitaxial growth of group-IV alloys is a key process step to realize the advanced Si...
The epitaxial growth of Si and SixGe1-x alloys from molecular beams of gaseous Si (Si2H6) and Ge (Ge...
The selective epitaxial growth of Si1-xGex and the related strain properties were studied. Epitaxial...
The growth of intrinsic SiGe and, n- and p-type doping of Si and SiGe layers was studied using a Red...
A numerical model that combines mass transport and surface kinetics was applied, for the first time,...
Low-temperature epitaxial growth of undoped and doped Si1-xGex films on the Si(100) surface at 550°C...
A Langmuir–Hinshelwood‐type kinetic model is developed for modeling growth of silicon–germanium allo...
A Langmuir-Hinshelwood growth-rate equation is presented for the germanium-silicon (GeSi) alloy depo...
Low temperature (similar to 500 degrees C) growth properties of Si1-xGex by disilane and solid-Ge mo...
Si1-xGex films were epitaxially grown on Si(001) substrates at various ratios of flow rates of Si2H6...
As the present Si Technology is reaching its physical and technological limits, the trend for the fu...
High quality germanium (Ge) epitaxial film is grown directly on silicon (001) substrate using a “thr...
The goal of this study is to obtain fundamental process-property relationships for the SiGe epitaxia...
The growth rate R of Si(001), Ge(001), and $\rm Si\sb{1-x}Ge\sb{x}(001)$ films deposited on Si(001)2...
The quality of germanium (Ge) epitaxial film grown directly on a silicon (Si) (001) substrate with 6...
Low temperature epitaxial growth of group-IV alloys is a key process step to realize the advanced Si...
The epitaxial growth of Si and SixGe1-x alloys from molecular beams of gaseous Si (Si2H6) and Ge (Ge...
The selective epitaxial growth of Si1-xGex and the related strain properties were studied. Epitaxial...
The growth of intrinsic SiGe and, n- and p-type doping of Si and SiGe layers was studied using a Red...