Add to ORKGThe continued downscaling of the metal-oxide semiconductor (MOS) transistor for sub-22 nm logic circuits with boosted performance will require the introduction of new channel materials with carrier mobility higher than that of Si, such as Ge for pMOS. The use of III-V compounds for nMOS devices poses however additional challenges related to the hetero-epitaxial growth of a polar semiconductor on a non-polar surface. Furthermore, these high-mobility materials have to be fabricated on large-area Si substrates, in the perspective of application in a standard low-cost very-large-scale integration scheme. In this work, we report on the successful growth of GaAs on 200 mm Si wafers by means of metal-organic vapor deposition using a modified Crius...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
peer reviewedWe have deposited III-V alloys on 200 mm Si miscut wafers with an oxide pattern. The se...
We have deposited III-V alloys on 200 mm Si miscut wafers with an oxide pattern. The selective epita...
We have deposited III-V alloys on 200 mm Si miscut wafers with an oxide pattern. The selective epita...
The integration of III/V materials onto large scale Si substrates is of significant interest for mic...
In electronics, the integration of III-V compound semiconductor materials and silicon is a way to so...
We report on the fabrication of MOS capacitors on 200 mm virtual GaAs substrates using a Si CMOS pro...
Controlled heteroepitaxy and integration of arsenide based III-V compounds onto Si surfaces have bee...
peer reviewedContinuous miniaturization has been at the heart of advances in modern semiconductor el...
Sub-22 nm high-performance digital circuits based on metal-oxide semiconductor (MOS) devices call fo...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
Sub-22 nm high-performance digital circuits based on metal-oxide semiconductor (MOS) devices call fo...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
peer reviewedWe have deposited III-V alloys on 200 mm Si miscut wafers with an oxide pattern. The se...
We have deposited III-V alloys on 200 mm Si miscut wafers with an oxide pattern. The selective epita...
We have deposited III-V alloys on 200 mm Si miscut wafers with an oxide pattern. The selective epita...
The integration of III/V materials onto large scale Si substrates is of significant interest for mic...
In electronics, the integration of III-V compound semiconductor materials and silicon is a way to so...
We report on the fabrication of MOS capacitors on 200 mm virtual GaAs substrates using a Si CMOS pro...
Controlled heteroepitaxy and integration of arsenide based III-V compounds onto Si surfaces have bee...
peer reviewedContinuous miniaturization has been at the heart of advances in modern semiconductor el...
Sub-22 nm high-performance digital circuits based on metal-oxide semiconductor (MOS) devices call fo...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
Sub-22 nm high-performance digital circuits based on metal-oxide semiconductor (MOS) devices call fo...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...
International audienceInterest in the heteroepitaxy of GaAs on Si has never failed in the last years...