Heterogeneous integration of III-V semiconductors on Si substrate has been attracting much attention as building blocks for next-generation electronics, optoelectronics, and photonics. In the present paper, we studied the selective area epitaxial studies of InP grown on 300 mm on-axis Si (001) substrates patterned with Shallow Trench Isolation (STI) using the necking effect technique to trap crystalline defects on the sidewalls. We make use of a thin Ge buffer in the bottom of the trench to reduce interfacial strain at the interface and to promote InP nucleation. We could show here, by systematic analysis, the strong impact of the growth temperatures and pressures of the InP layer on the growth uniformity along the trench and crystalline qu...
To further boost the CMOS device performance, Ge has been successfully integrated on shallow trench ...
Junesand, Carl et al.Epitaxial lateral overgrowth of InP has been grown by hydride vapor phase epita...
Si-based group III-V material enables a multitude of applications and functionalities of the novel o...
In this paper, we report a comprehensive investigation of InP selective growth in shallow trench iso...
In this work, we report the selective area epitaxial growth of high quality InP in shallow trench is...
We discuss the selective epitaxial growth of InP on patterned Si (001) substrates with Shallow Trenc...
We report the selective area growth of InP layers in submicron trenches on Si (001) substrates by us...
In this work, we demonstrate the selective area growth of high quality InP layers in submicron trenc...
This study relates to the heteroepitaxy of InP buffer on patterned Si substrates using the selective...
In the paper, we theoretically investigate a new size effect of trench width on inter-island distanc...
The integration of III/V materials onto large scale Si substrates is of significant interest for mic...
The integration of III/V materials onto large scale Si substrates is of significant interest for mic...
Sub-22 nm high-performance digital circuits based on metal-oxide semiconductor (MOS) devices call fo...
In this PhD work, the threading dislocation glide characteristics in Ge epitaxial layers have been s...
A mathematical model was developed to examine the growth rate of III–V compounds inside sub-micron t...
To further boost the CMOS device performance, Ge has been successfully integrated on shallow trench ...
Junesand, Carl et al.Epitaxial lateral overgrowth of InP has been grown by hydride vapor phase epita...
Si-based group III-V material enables a multitude of applications and functionalities of the novel o...
In this paper, we report a comprehensive investigation of InP selective growth in shallow trench iso...
In this work, we report the selective area epitaxial growth of high quality InP in shallow trench is...
We discuss the selective epitaxial growth of InP on patterned Si (001) substrates with Shallow Trenc...
We report the selective area growth of InP layers in submicron trenches on Si (001) substrates by us...
In this work, we demonstrate the selective area growth of high quality InP layers in submicron trenc...
This study relates to the heteroepitaxy of InP buffer on patterned Si substrates using the selective...
In the paper, we theoretically investigate a new size effect of trench width on inter-island distanc...
The integration of III/V materials onto large scale Si substrates is of significant interest for mic...
The integration of III/V materials onto large scale Si substrates is of significant interest for mic...
Sub-22 nm high-performance digital circuits based on metal-oxide semiconductor (MOS) devices call fo...
In this PhD work, the threading dislocation glide characteristics in Ge epitaxial layers have been s...
A mathematical model was developed to examine the growth rate of III–V compounds inside sub-micron t...
To further boost the CMOS device performance, Ge has been successfully integrated on shallow trench ...
Junesand, Carl et al.Epitaxial lateral overgrowth of InP has been grown by hydride vapor phase epita...
Si-based group III-V material enables a multitude of applications and functionalities of the novel o...