Add to ORKGThe energy-band alignment of epitaxial zb-ZnS(001)/α-Zn_(3)P_(2)(001) heterojunctions has been determined by measurement of shifts in the phosphorus 2p and sulfur 2p core-level binding energies for various thicknesses (0.6–2.2 nm) of ZnS grown by molecular beam epitaxy on Zn_(3)P_(2). In addition, the position of the valence-band maximum for bulk ZnS and Zn3P2 films was estimated using density functional theory calculations of the valence-band density-of-states. The heterojunction was observed to be type I, with a valence-band offset, ΔE_V, of −1.19 ± 0.07 eV, which is significantly different from the type II alignment based on electron affinities that is predicted by Anderson theory. n^(+)-ZnS/p-Zn_(3)P_(2) heterojunctions demonstrated ope...
The formation of the ZnSe/CuGaSe₂ heterointerface was studied by x-ray photoelectron spectroscopy (X...
Binary II–V semiconductors are highly optically active materials, possess high intrinsic mechanical ...
ABSTRACT: The growth of epitaxial Zn3P2 films on III−V substrates unlocks a promising pathway toward...
The energy-band alignment of epitaxial zb-ZnS(001)/α-Zn_(3)P_(2)(001) heterojunctions has been deter...
The energy-band alignments for zb-ZnSe(001)/α-Zn_(3)P_2(001), w-CdS(0001)/α-Zn_(3)P_2(001), and w-Zn...
Heterojunctions were formed between ZnSnP₂ and buffer materials, CdS, ZnS, and In₂S₃, using chemical...
The prospect of terawatt-scale electricity generation using a photovoltaic (PV) device places strict...
A new ternary-alloy, zinc–tin nitride (ZnSnN<sub>2</sub>), is considered as one of the most promisin...
Epitaxial layers of ZnS were grown on cleaved GaP(110) surfaces by molecular beam epitaxy in an ultr...
Band alignment is critical to the performance of heterojunction thin film solar cells. In this lette...
Although ZnO and ZnS are abundant, stable, environmentallybenign, their band gap energies (3.44 eV, ...
The heterojunction between silicon(111) and zinc sulfide was studied using Auger electron spectrosco...
The steady-state photoluminescence spectra of zinc phosphide (Zn_3P_2) wafers have revealed a fundam...
Publisher's PDFComposed of earth-abundant elements, ZnSnN2 is a promising semiconductor for photovol...
Wurtzite-type zinc oxide (ZnO) and zinc sulfide (ZnS) have electronic band gaps that are too large f...
The formation of the ZnSe/CuGaSe₂ heterointerface was studied by x-ray photoelectron spectroscopy (X...
Binary II–V semiconductors are highly optically active materials, possess high intrinsic mechanical ...
ABSTRACT: The growth of epitaxial Zn3P2 films on III−V substrates unlocks a promising pathway toward...
The energy-band alignment of epitaxial zb-ZnS(001)/α-Zn_(3)P_(2)(001) heterojunctions has been deter...
The energy-band alignments for zb-ZnSe(001)/α-Zn_(3)P_2(001), w-CdS(0001)/α-Zn_(3)P_2(001), and w-Zn...
Heterojunctions were formed between ZnSnP₂ and buffer materials, CdS, ZnS, and In₂S₃, using chemical...
The prospect of terawatt-scale electricity generation using a photovoltaic (PV) device places strict...
A new ternary-alloy, zinc–tin nitride (ZnSnN<sub>2</sub>), is considered as one of the most promisin...
Epitaxial layers of ZnS were grown on cleaved GaP(110) surfaces by molecular beam epitaxy in an ultr...
Band alignment is critical to the performance of heterojunction thin film solar cells. In this lette...
Although ZnO and ZnS are abundant, stable, environmentallybenign, their band gap energies (3.44 eV, ...
The heterojunction between silicon(111) and zinc sulfide was studied using Auger electron spectrosco...
The steady-state photoluminescence spectra of zinc phosphide (Zn_3P_2) wafers have revealed a fundam...
Publisher's PDFComposed of earth-abundant elements, ZnSnN2 is a promising semiconductor for photovol...
Wurtzite-type zinc oxide (ZnO) and zinc sulfide (ZnS) have electronic band gaps that are too large f...
The formation of the ZnSe/CuGaSe₂ heterointerface was studied by x-ray photoelectron spectroscopy (X...
Binary II–V semiconductors are highly optically active materials, possess high intrinsic mechanical ...
ABSTRACT: The growth of epitaxial Zn3P2 films on III−V substrates unlocks a promising pathway toward...