Add to ORKGWith respect to GaAs epitaxial lift-off technology, we report here the optimum atomic spacing (5-10 nm) needed to etch off the AlAs release layer that is sandwiched between two GaAs epitaxial layers. The AlAs etching rate in hydrofluoric acid based solutions was monitored as a function of release layer thickness. We found a sudden quenching in the etching rate, approximately 20 times that of the peak value, at lower dimensions (similar to2.5 nm) of the AlAs epitaxial layer. Since this cannot be explained on the basis of a previous theory (inverse square root of release layer thickness), we propose a diffusion-limited mechanism to explain this reaction process. With the diffusion constant being a mean-free-path-dependent parameter, a relatio...
Molecular layer epitaxy is a crystal growth method using chemical reactions of adsorbates on semicon...
Following the example of ALD, its etching counterpart atomic layer etching (ALE) is currently being ...
The controlled, reproducible selective etching of semiconductors is imperative in the fabrication of...
The lateral etch rate of AlGaAs in HF in the 'Epitaxial Lift-Off' (ELO) process consists of two part...
The lateral etch rate of the epitaxial lift-off ELO process was determined as a function of the tota...
During epitaxial lift-off of II-VI semiconductors a sacrificial layer of MgS is dissolved by acid. H...
Contains fulltext : 60629.pdf (publisher's version ) (Closed access)Epitaxial lift...
In the present work a so-called diffusion and reaction related model (DR model) is derived based on ...
The epitaxial lift-off (ELO) process is utilized to produce thin-film III-V devices, while the subst...
Contains fulltext : 58516.pdf (publisher's version ) (Open Access)The epitaxial li...
By cooling substrates to low temperatures (–40 °C), plasma etching of AlGaAs/AlAs/GaAs structures is...
A new room temperature wet chemical digital etching technique for GaAs is presented which uses hydro...
The scaling of etch rates with feature dimensions is an important issue in the fabrication of microe...
The pits formed on an etched GaAs surface, due to the anisotropic etching around dislocations, are e...
In the semiconductors and related industries, the fabrication of nanostructures and nanopatterns has...
Molecular layer epitaxy is a crystal growth method using chemical reactions of adsorbates on semicon...
Following the example of ALD, its etching counterpart atomic layer etching (ALE) is currently being ...
The controlled, reproducible selective etching of semiconductors is imperative in the fabrication of...
The lateral etch rate of AlGaAs in HF in the 'Epitaxial Lift-Off' (ELO) process consists of two part...
The lateral etch rate of the epitaxial lift-off ELO process was determined as a function of the tota...
During epitaxial lift-off of II-VI semiconductors a sacrificial layer of MgS is dissolved by acid. H...
Contains fulltext : 60629.pdf (publisher's version ) (Closed access)Epitaxial lift...
In the present work a so-called diffusion and reaction related model (DR model) is derived based on ...
The epitaxial lift-off (ELO) process is utilized to produce thin-film III-V devices, while the subst...
Contains fulltext : 58516.pdf (publisher's version ) (Open Access)The epitaxial li...
By cooling substrates to low temperatures (–40 °C), plasma etching of AlGaAs/AlAs/GaAs structures is...
A new room temperature wet chemical digital etching technique for GaAs is presented which uses hydro...
The scaling of etch rates with feature dimensions is an important issue in the fabrication of microe...
The pits formed on an etched GaAs surface, due to the anisotropic etching around dislocations, are e...
In the semiconductors and related industries, the fabrication of nanostructures and nanopatterns has...
Molecular layer epitaxy is a crystal growth method using chemical reactions of adsorbates on semicon...
Following the example of ALD, its etching counterpart atomic layer etching (ALE) is currently being ...
The controlled, reproducible selective etching of semiconductors is imperative in the fabrication of...