Add to ORKGFor the incipient post-Si era of digital devices, III-V compounds are mature candidates among n-type active channels as technol-ogy booster to increase electron mobility, but – unlike Si – they lack a well-established technology for dielectric gating which may bear aggressive device scaling. Here we propose a viable route to grow gate dielectrics with high permittivity (high-κ) on In0.53Ga0.47As(001) substrates by means of atomic layer deposition (ALD) by taking advantage from the well-known clean-up effect of the trimethylaluminum (TMA) precursor on the III-V compound surfaces and from a permittivity enhancement due to transition metal doping. To this purpose, Al2O3 pre-conditioning cycles are performed to passivate the surface and Al2O3 c...
[[abstract]]A capacitive effective thickness (CET) value of 1.0 nm has been achieved in atomic layer...
Numerous metal oxides have been studied worldwide as possible high-k gate dielectric candidates for ...
In-based III-V compound semiconductors have higher electron mobilities than either Si or Ge and dire...
We review the impact of oxide-semiconductor interface chemistry and precursor choice on the quality ...
We report on in-situ surface preparation methods prior to atomic layer deposition (ALD) of gate diel...
Complementary metal-oxide-semiconductor (CMOS) transistors are being aggressively scaled, reaching t...
Hafnium oxide gate dielectrics doped with a one to two percent of aluminum are grown on In0.53Ga0.47...
We report on an extensive structural and electrical characterization of undergate dielectric oxide i...
A development of high quality InxGa1 - xAs epitaxial layers on Si substrates is essential for high-p...
In current work, the effect of the growth cycles of atomic-layer-deposition (ALD) derived ultrathin ...
The dramatic improvements in microelectronics performance over that past few decades have been accom...
The search and progress for alternative gate dielectrics have attracted great attention during recen...
Present work deals with the Preparation and characterization of high-k aluminum oxide thin films by...
textThe performance scaling of metal-oxide-semiconductor field-effect-transistors (MOSFETs) has been...
In order to continue with metal-oxide-semiconductors (CMOS) transistor scaling and to reduce the pow...
[[abstract]]A capacitive effective thickness (CET) value of 1.0 nm has been achieved in atomic layer...
Numerous metal oxides have been studied worldwide as possible high-k gate dielectric candidates for ...
In-based III-V compound semiconductors have higher electron mobilities than either Si or Ge and dire...
We review the impact of oxide-semiconductor interface chemistry and precursor choice on the quality ...
We report on in-situ surface preparation methods prior to atomic layer deposition (ALD) of gate diel...
Complementary metal-oxide-semiconductor (CMOS) transistors are being aggressively scaled, reaching t...
Hafnium oxide gate dielectrics doped with a one to two percent of aluminum are grown on In0.53Ga0.47...
We report on an extensive structural and electrical characterization of undergate dielectric oxide i...
A development of high quality InxGa1 - xAs epitaxial layers on Si substrates is essential for high-p...
In current work, the effect of the growth cycles of atomic-layer-deposition (ALD) derived ultrathin ...
The dramatic improvements in microelectronics performance over that past few decades have been accom...
The search and progress for alternative gate dielectrics have attracted great attention during recen...
Present work deals with the Preparation and characterization of high-k aluminum oxide thin films by...
textThe performance scaling of metal-oxide-semiconductor field-effect-transistors (MOSFETs) has been...
In order to continue with metal-oxide-semiconductors (CMOS) transistor scaling and to reduce the pow...
[[abstract]]A capacitive effective thickness (CET) value of 1.0 nm has been achieved in atomic layer...
Numerous metal oxides have been studied worldwide as possible high-k gate dielectric candidates for ...
In-based III-V compound semiconductors have higher electron mobilities than either Si or Ge and dire...