Evolution of the electron energy band alignment at interfaces between different semiconductors and wide-gap oxide insulators is examined using the internal photoemission spectroscopy, which is based on observations of optically-induced electron (or hole) transitions across the semiconductor/insulator barrier. Interfaces of various semiconductors ranging from the conventional silicon to the high-mobility Ge-based (Ge, Si1-xGex, Ge1-xSnx) and A(III)B(V) group (GaAs, In-x,Ga1-x,As,InAs, GaP, InP, GaSb, InSb) materials were studied revealing several general trends in the evolution of band offsets. It is found that in the oxides of metals with cation radii larger than approximate to 0.7 angstrom, the oxide valence band top remains nearly at the ...
Experimental analysis of photocurrent spectra in Si/SiO2/transition metal dichalcogenide (TMD) struc...
The energy band alignment at interfaces between different materials is a key factor, which determine...
The energy band alignment at interfaces between different materials is a key factor, which determine...
Evolution of the electron energy band alignment at interfaces between different semiconductors and w...
Application of internal photoemission spectroscopy for determination of energy barriers and band off...
Application of internal photoemission spectroscopy for determination of energy barriers and band off...
Extended electron states in insulating oxide layers on Si and high-mobility semiconductors The elect...
Extended electron states in insulating oxide layers on Si and high-mobility semiconductors The elect...
The article overviews experimental results obtained by applying internal photoemission (IPE) spectro...
A method for extracting energy band alignment of metal/high-k oxide/semiconductor structures from in...
The energy band alignment at interfaces of semiconducting oxides is of direct relevance for the elec...
With the size of modern electronic devices reduced to a few nanometer scale, their electronic perfor...
The energy band alignment at interfaces of semiconducting oxides is of direct relevance for the elec...
The electron energy band alignment at interfaces of InxGa1-xAs (0 <= x <= 0.53) with atomic-layer de...
Experimental analysis of photocurrent spectra in Si/SiO2/transition metal dichalcogenide (TMD) struc...
Experimental analysis of photocurrent spectra in Si/SiO2/transition metal dichalcogenide (TMD) struc...
The energy band alignment at interfaces between different materials is a key factor, which determine...
The energy band alignment at interfaces between different materials is a key factor, which determine...
Evolution of the electron energy band alignment at interfaces between different semiconductors and w...
Application of internal photoemission spectroscopy for determination of energy barriers and band off...
Application of internal photoemission spectroscopy for determination of energy barriers and band off...
Extended electron states in insulating oxide layers on Si and high-mobility semiconductors The elect...
Extended electron states in insulating oxide layers on Si and high-mobility semiconductors The elect...
The article overviews experimental results obtained by applying internal photoemission (IPE) spectro...
A method for extracting energy band alignment of metal/high-k oxide/semiconductor structures from in...
The energy band alignment at interfaces of semiconducting oxides is of direct relevance for the elec...
With the size of modern electronic devices reduced to a few nanometer scale, their electronic perfor...
The energy band alignment at interfaces of semiconducting oxides is of direct relevance for the elec...
The electron energy band alignment at interfaces of InxGa1-xAs (0 <= x <= 0.53) with atomic-layer de...
Experimental analysis of photocurrent spectra in Si/SiO2/transition metal dichalcogenide (TMD) struc...
Experimental analysis of photocurrent spectra in Si/SiO2/transition metal dichalcogenide (TMD) struc...
The energy band alignment at interfaces between different materials is a key factor, which determine...
The energy band alignment at interfaces between different materials is a key factor, which determine...