Add to ORKGA theoretical study of the oxidation of InP(001)-(2 × 4) surface is performed using density functional theory methods. Our results on surface oxidation show that the oxygen adsorption does not produce any gap states in the bulk InP band gap, due to the saturation of surface In dangling bonds, whereas substitutional oxygen atoms produce gap states. This study also shows that the surface stability increases with the oxygen content, indicating a strong tendency for surface oxidation. Our results help to clarify the origin of surface gap states upon surface oxidation and provide an insight at the atomic level the mechanism of surface oxidation, which will assist in the understanding of the degradation of III-V devices upon oxygen exposure or in...
The exothermic nature of oxidation causes nearly all semiconductor applications in various fields li...
We study atomic oxygen adsorption on a Pb(1 0 0) surface using density functional theory. The struct...
We present surface-differential-reflectivity results on the oxidation of InP(110) surfaces in the en...
A theoretical study of the oxidation of InP(001)-(2 × 4) surface is performed using density function...
Using ab-initio methods, atomic structures and electronic properties of InP (001)/HfO2 (001) interfa...
The properties of InP are such that it has a wide range of applicability in the fabrication of elect...
The atomic structure and electronic properties of the InP and Al0.5In0.5P(001) surfaces at the initi...
We performed a detailed investigation of the oxidation of the technologically relevant GaAs(001)-bet...
Indium phosphide (InP) is a member of a group of compounds known as III-V semiconductors. InP's dire...
The interactions of oxygen atoms on the GaAs(001)-beta 2(2x4) surface and the passivation of oxidize...
This work addresses the key issues of the passivation of the III-V compound semiconductors surfaces ...
In this paper, we reported a first-principles investigation on the structural and electronic propert...
Previously found oxidized III-V semiconductor surfaces have been generally structurally disordered a...
We study the atomic oxygen adsorption on Pb(111) surface by using density-functional theory within t...
In this paper, we reported a first-principles investigation on the structural and electronic propert...
The exothermic nature of oxidation causes nearly all semiconductor applications in various fields li...
We study atomic oxygen adsorption on a Pb(1 0 0) surface using density functional theory. The struct...
We present surface-differential-reflectivity results on the oxidation of InP(110) surfaces in the en...
A theoretical study of the oxidation of InP(001)-(2 × 4) surface is performed using density function...
Using ab-initio methods, atomic structures and electronic properties of InP (001)/HfO2 (001) interfa...
The properties of InP are such that it has a wide range of applicability in the fabrication of elect...
The atomic structure and electronic properties of the InP and Al0.5In0.5P(001) surfaces at the initi...
We performed a detailed investigation of the oxidation of the technologically relevant GaAs(001)-bet...
Indium phosphide (InP) is a member of a group of compounds known as III-V semiconductors. InP's dire...
The interactions of oxygen atoms on the GaAs(001)-beta 2(2x4) surface and the passivation of oxidize...
This work addresses the key issues of the passivation of the III-V compound semiconductors surfaces ...
In this paper, we reported a first-principles investigation on the structural and electronic propert...
Previously found oxidized III-V semiconductor surfaces have been generally structurally disordered a...
We study the atomic oxygen adsorption on Pb(111) surface by using density-functional theory within t...
In this paper, we reported a first-principles investigation on the structural and electronic propert...
The exothermic nature of oxidation causes nearly all semiconductor applications in various fields li...
We study atomic oxygen adsorption on a Pb(1 0 0) surface using density functional theory. The struct...
We present surface-differential-reflectivity results on the oxidation of InP(110) surfaces in the en...