Add to ORKGThe evolution of the semiconductor industry calls for new techniques to address the challenges arising from the downscaling trend known as Moore’s law, which has brought electronic devices into the nano-regime. Monolayer doping (MLD) is an interesting alternative for the currently mostly employed ion implantation to\ud introduce a dopant into silicon. The MLD technique is capable of forming ultra-shallow doping without causing crystal damage to the substrate. It is also capable of doping non-planar surfaces.\ud In this thesis, we have addressed a variety of conceptual novelties to MLD. We\ud demonstrated the tuning down of the doping level using the mixed-monolayer doping concept and the tuning up using carborane clusters. Being able to con...
One of the challenges facing the semiconductor industry as the scale of transistors shrink into nano...
This work describes a non-destructive method to introduce impurity atoms into silicon (Si) and germa...
Scaling of semiconductor devices has become a challenge with respect to the design, device performan...
The evolution of the semiconductor industry calls for new techniques to address the challenges arisi...
To maintain electron device scaling, in recent years the semiconductor industry has been forced to m...
Monolayer doping (MLD) presents an alternative method to achieve silicon doping without causing crys...
Monolayer doping (MLD) presents an alternative method to achieve silicon doping without causing crys...
As devices continue to shrink following the trend of Moore\u27s law, and non-planar devices such as ...
Controlling the doping concentration of silicon nanostructures is challenging. Here, we investigated...
One of the major challenges towards scaling electronic devices to the nanometre-size regime is attai...
Molecular monolayer doping (MLD) presents an alternative to achieve doping of silicon in a nondestru...
Molecular monolayer doping (MLD) presents an alternative to achieve doping of silicon in a nondestru...
Controlled doping of semiconductor material with high atomic accuracy and minimum defects in silicon...
Moore\u27s law continues to drive the semiconductor industry to create smaller transistors and impro...
Monolayer contact doping (MLCD) is a modification of the monolayer doping (MLD) technique that invol...
One of the challenges facing the semiconductor industry as the scale of transistors shrink into nano...
This work describes a non-destructive method to introduce impurity atoms into silicon (Si) and germa...
Scaling of semiconductor devices has become a challenge with respect to the design, device performan...
The evolution of the semiconductor industry calls for new techniques to address the challenges arisi...
To maintain electron device scaling, in recent years the semiconductor industry has been forced to m...
Monolayer doping (MLD) presents an alternative method to achieve silicon doping without causing crys...
Monolayer doping (MLD) presents an alternative method to achieve silicon doping without causing crys...
As devices continue to shrink following the trend of Moore\u27s law, and non-planar devices such as ...
Controlling the doping concentration of silicon nanostructures is challenging. Here, we investigated...
One of the major challenges towards scaling electronic devices to the nanometre-size regime is attai...
Molecular monolayer doping (MLD) presents an alternative to achieve doping of silicon in a nondestru...
Molecular monolayer doping (MLD) presents an alternative to achieve doping of silicon in a nondestru...
Controlled doping of semiconductor material with high atomic accuracy and minimum defects in silicon...
Moore\u27s law continues to drive the semiconductor industry to create smaller transistors and impro...
Monolayer contact doping (MLCD) is a modification of the monolayer doping (MLD) technique that invol...
One of the challenges facing the semiconductor industry as the scale of transistors shrink into nano...
This work describes a non-destructive method to introduce impurity atoms into silicon (Si) and germa...
Scaling of semiconductor devices has become a challenge with respect to the design, device performan...