Add to ORKGHigh-quality Ge substrates have numerous applications, including high-efficiency III-V multijunction solar cells and photodetectors. But the high cost of single-crystalline Ge makes the use of Ge-on-Si virtual substrates more practical for device fabrication. However, the lattice mismatch between Ge and Si leads to a highly strained Ge layer when grown directly on the Si lattice. The high mismatch strain unavoidably leads to defects, primarily dislocations, that degrade the Ge film quality. Several approaches for mitigating these defects have been proposed, including selective epitaxial growth (SEG), in which one employs an amorphous layer (most often SiO2) as a mask to reduce the epitaxial contact between the Ge and Si lattices to lower th...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
High-quality crystalline Ge thin films on low-cost glass substrates are desired to reduce the fabric...
The solid phase epitaxial regrowth (SPER) of SiGe alloys has been studied using atomistic simulation...
High-quality Ge substrates have numerous applications, including high-efficiency III-V multijunction...
High-quality Ge substrates have numerous applications, including high-efficiency III-V multijunction...
High-quality Ge-on-Si heterostructures have been actively pursued for many advanced applications, in...
Strained epitaxial growth of Ge on Si(001) produces self-assembled, nanometer scale islands, or quan...
The initial stages of the growth of germanium on the dimer reconstructed Si(100) surface is modelled...
The purpose of this thesis is to investigate the initial stages of the growth of heteroepitaxial fil...
Epitaxial growth can occur layer-by layer or by islanding. The mode of growth depends on the surface...
We demonstrate a promising approach for the monolithic integration of Ge-based nanoelectronics and n...
Ge epitaxial film on Si can be used as a virtual Ge substrate for fabrication of high efficiency III...
Building on a unique two-step, simple MBE growth technique, we have investigated possible dislocatio...
Heteroepitaxial films of Ge on Si(001) are receiving wide attention due to several possible applicat...
[[abstract]]We have investigated the effect of native oxide on the epitaxial SiGe from deposited amo...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
High-quality crystalline Ge thin films on low-cost glass substrates are desired to reduce the fabric...
The solid phase epitaxial regrowth (SPER) of SiGe alloys has been studied using atomistic simulation...
High-quality Ge substrates have numerous applications, including high-efficiency III-V multijunction...
High-quality Ge substrates have numerous applications, including high-efficiency III-V multijunction...
High-quality Ge-on-Si heterostructures have been actively pursued for many advanced applications, in...
Strained epitaxial growth of Ge on Si(001) produces self-assembled, nanometer scale islands, or quan...
The initial stages of the growth of germanium on the dimer reconstructed Si(100) surface is modelled...
The purpose of this thesis is to investigate the initial stages of the growth of heteroepitaxial fil...
Epitaxial growth can occur layer-by layer or by islanding. The mode of growth depends on the surface...
We demonstrate a promising approach for the monolithic integration of Ge-based nanoelectronics and n...
Ge epitaxial film on Si can be used as a virtual Ge substrate for fabrication of high efficiency III...
Building on a unique two-step, simple MBE growth technique, we have investigated possible dislocatio...
Heteroepitaxial films of Ge on Si(001) are receiving wide attention due to several possible applicat...
[[abstract]]We have investigated the effect of native oxide on the epitaxial SiGe from deposited amo...
International audienceIn this work, the growth of germanium by ultrahigh vacuum chemical vapor depos...
High-quality crystalline Ge thin films on low-cost glass substrates are desired to reduce the fabric...
The solid phase epitaxial regrowth (SPER) of SiGe alloys has been studied using atomistic simulation...