Add to ORKGUsing an aspect ratio trapping technique, we demonstrate molecular beam epitaxy of GaAs nanostubs on Si(001) substrates. Nanoholes in a SiO2 mask act as a template for GaAs-on-Si selective-area growth(SAG) of nanostubs 120 nm tall and ≤100 nm in diameter. We investigate the influence of growthparameters including substrate temperature and growth rate on SAG. Optimizing these parameters results in complete selectivity with GaAsgrowth only on the exposed Si(001). Due to the confined-geometry, strain and defects in the GaAs nanostubs are restricted in lateral dimensions, and surface energy is further minimized. We assess the electrical properties of the selectively grownGaAs nanostubs by fabricating heterogeneous p+–Si/n+–GaAs p–n diodes
We report on the epitaxial growth of large-area position-controlled self-catalyzed GaAs nanowires (N...
High quality GaAs epilayers grown by metal-organic chemical vapor deposition are demonstrated on a S...
Selective-area growth is a promising technique for enabling of the fabrication of the scalable III–V...
Using an aspect ratio trapping technique, we demonstrate molecular beam epitaxy of GaAs nanostubs on...
We present the nanoheteroepitaxial growth of gallium arsenide (GaAs) on nano-patterned silicon (Si) ...
We report the use of highly ordered, dense, and regular arrays of in-plane GaAs nanowires as buildin...
We report the use of highly ordered, dense, and regular arrays of in-plane GaAs nanowires as buildin...
We report the use of highly ordered, dense, and regular arrays of in-plane GaAs nanowires as buildin...
We present the nanoheteroepitaxial growth of gallium arsenide (GaAs) on nano-patterned silicon (Si) ...
We report the use of highly ordered, dense, and regular arrays of in-plane GaAs nanowires as buildin...
We report three dimensional (3D) disk-shaped GaAs crystals on V-groove patterned (001) Si substrates...
We report three dimensional (3D) disk-shaped GaAs crystals on V-groove patterned (001) Si substrates...
A study of the growth by molecular‐beam epitaxy of Si‐doped n ‐type GaAs on the GaAs(201) surface is...
A study of the growth by molecular‐beam epitaxy of Si‐doped n ‐type GaAs on the GaAs(201) surface is...
The Aspect Ratio Trapping technique has been extensively evaluated for improving the quality of III-...
We report on the epitaxial growth of large-area position-controlled self-catalyzed GaAs nanowires (N...
High quality GaAs epilayers grown by metal-organic chemical vapor deposition are demonstrated on a S...
Selective-area growth is a promising technique for enabling of the fabrication of the scalable III–V...
Using an aspect ratio trapping technique, we demonstrate molecular beam epitaxy of GaAs nanostubs on...
We present the nanoheteroepitaxial growth of gallium arsenide (GaAs) on nano-patterned silicon (Si) ...
We report the use of highly ordered, dense, and regular arrays of in-plane GaAs nanowires as buildin...
We report the use of highly ordered, dense, and regular arrays of in-plane GaAs nanowires as buildin...
We report the use of highly ordered, dense, and regular arrays of in-plane GaAs nanowires as buildin...
We present the nanoheteroepitaxial growth of gallium arsenide (GaAs) on nano-patterned silicon (Si) ...
We report the use of highly ordered, dense, and regular arrays of in-plane GaAs nanowires as buildin...
We report three dimensional (3D) disk-shaped GaAs crystals on V-groove patterned (001) Si substrates...
We report three dimensional (3D) disk-shaped GaAs crystals on V-groove patterned (001) Si substrates...
A study of the growth by molecular‐beam epitaxy of Si‐doped n ‐type GaAs on the GaAs(201) surface is...
A study of the growth by molecular‐beam epitaxy of Si‐doped n ‐type GaAs on the GaAs(201) surface is...
The Aspect Ratio Trapping technique has been extensively evaluated for improving the quality of III-...
We report on the epitaxial growth of large-area position-controlled self-catalyzed GaAs nanowires (N...
High quality GaAs epilayers grown by metal-organic chemical vapor deposition are demonstrated on a S...
Selective-area growth is a promising technique for enabling of the fabrication of the scalable III–V...