Add to ORKGFormation of SiGe/Si heterostructures by germanium ion implantation was investigated. A germanium‐implanted layer was grown epitaxially in the solid phase by thermal annealing. Two kinds of crystalline defects were observed. One is a misfit dislocation, and the other is a residual dislocation caused by ion bombardment. The p‐n junction formed in the SiGe layer has a leakage current three orders of magnitude larger than that of a pure Si p‐n junction fabricated with an identical process except for the Ge+ implantation. Carbon doping in the SiGe layer improves its crystalline quality and the junction characteristics
Ion implantation has been investigated as an alternative technique to epitaxial deposition for the s...
Defects produced by ion implantation in Si and Ge, their evolution upon post-implantation annealing,...
SiGe device islands have been synthesised by Ge+ ion implantation of doses of 0.45×1016Ge+/cm2 to 4....
The use of SiGe/Si heterostructures in the fabrication of electronic devices results in an improveme...
Improvement of crystalline quality in Si1-xGex formed by germanium ion implantation has been found. ...
The synthesis and doping of Si/Si1-xGex/Si heterostructures by ion implantation is being investigate...
To investigate boron deactivation and/or donor complex formation due to a high‐dose Ge and C implant...
The influence of germanium ion current density on the residual defects in ion implanted Si/SiGe hete...
The structural properties of epitaxial Si1 - xGex layers formed by high-dose germanium implantation ...
ABSTRACT: Silicon-germanium heterostructures have introduced the opportunity to engineer the energy ...
The relaxation of ion beam synthesised SiGe alloys occurs during solid phase epitaxial growth (SPEG)...
Heteroepitaxy techniques for the growth of group IV binary alloys, in particular, SiGe, SiC, GeC and...
The past two decades, germanium has drawn international attention as one of the most promising mater...
We demonstrate a promising approach for the monolithic integration of Ge-based nanoelectronics and n...
Germanium has interesting optical properties and high carrier mobilities, which can add functionalit...
Ion implantation has been investigated as an alternative technique to epitaxial deposition for the s...
Defects produced by ion implantation in Si and Ge, their evolution upon post-implantation annealing,...
SiGe device islands have been synthesised by Ge+ ion implantation of doses of 0.45×1016Ge+/cm2 to 4....
The use of SiGe/Si heterostructures in the fabrication of electronic devices results in an improveme...
Improvement of crystalline quality in Si1-xGex formed by germanium ion implantation has been found. ...
The synthesis and doping of Si/Si1-xGex/Si heterostructures by ion implantation is being investigate...
To investigate boron deactivation and/or donor complex formation due to a high‐dose Ge and C implant...
The influence of germanium ion current density on the residual defects in ion implanted Si/SiGe hete...
The structural properties of epitaxial Si1 - xGex layers formed by high-dose germanium implantation ...
ABSTRACT: Silicon-germanium heterostructures have introduced the opportunity to engineer the energy ...
The relaxation of ion beam synthesised SiGe alloys occurs during solid phase epitaxial growth (SPEG)...
Heteroepitaxy techniques for the growth of group IV binary alloys, in particular, SiGe, SiC, GeC and...
The past two decades, germanium has drawn international attention as one of the most promising mater...
We demonstrate a promising approach for the monolithic integration of Ge-based nanoelectronics and n...
Germanium has interesting optical properties and high carrier mobilities, which can add functionalit...
Ion implantation has been investigated as an alternative technique to epitaxial deposition for the s...
Defects produced by ion implantation in Si and Ge, their evolution upon post-implantation annealing,...
SiGe device islands have been synthesised by Ge+ ion implantation of doses of 0.45×1016Ge+/cm2 to 4....