A. I. Pechnikov scite author profile

Epitaxial layers of α-Ga2O3 with different Sn doping levels were grown by halide vapor phase epitaxy on sapphire. The films had shallow donor concentrations ranging from 1017 to 4.8 × 1019 cm−3. Deep level transient spectroscopy of the lowest doped samples revealed dominant A traps with level Ec − 0.6 eV and B traps near Ec − 1.1 eV. With increasing shallow donor concentration, the density of the A traps increased, and new traps C (Ec − 0.85 eV) and D (Ec − 0.23 eV) emerged. Photocapacitance spectra showed the presence of deep traps with optical ionization energy of ∼2 and 2.7 eV and prominent persistent photocapacitance at low temperature, surviving heating to temperatures above room temperature. The diffusion length of nonequilibrium charge carriers was 0.15 µm, and microcathodoluminescence spectra showed peaks in the range 339–540 nm, but no band-edge emission.

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Editors’ Choice—Electrical Properties and Deep Traps in α-Ga₂O₃:Sn Films Grown on Sapphire by Halide Vapor Phase Epitaxy

Polyakov¹,

Николаев

Степанов

et al. 2020

ECS J. Solid State Sci. Technol.

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Films of α-Ga2O3 doped with Sn were grown by halide vapor phase epitaxy (HVPE) on planar and patterned sapphire substrates. For planar substrates, with the same high Sn flow, the total concentration of donors was varying from 1017 cm−3 to high 1018 cm−3. The donor centers were shallow states with activation energies 35–60 meV, centers with levels near Ec–(0.1–0.14) eV (E1), and centers with levels near Ec–(0.35–0.4) eV (E2). Deeper electron traps with levels near Ec−0.6 eV (A), near Ec−0.8 eV (B), Ec−1 eV (C) were detected in capacitance or current transient spectroscopy measurements. Annealing of heavily compensated films in molecular hydrogen flow at 500 °C for 0.5 h strongly increased the concentration of the E1 states and increased the density of the E2 and A traps. For films grown on patterned substrates the growth started by the formation of the orthorhombic α-phase in the valleys of the sapphire pattern that was overgrown by the regions of laterally propagating α-phase. No improvement of the crystalline quality of the layers when using patterned substrates was detected. The electric properties, the deep traps spectra, and the effects of hydrogen treatment were similar to the case of planar samples.

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HVPE Growth and Characterization of ε-Ga₂O₃ Films on Various Substrates

Николаев¹,

Степанов²,

Pechnikov³

et al. 2020

ECS J. Solid State Sci. Technol.

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In this study we compare the growth of gallium oxide films by halide vapor phase epitaxy (HVPE) on various substrates under the same growth conditions. Gallium oxide films were deposited at 500 °C–600 °C on basal plane (0001) planar and patterned sapphire substrates, (0001) 2H-GaN, 4H-SiC, and 2 ¯ 01 bulk β-Ga2O3 substrates. The layers were studied by X-ray diffraction (XRD), scanning electron microscopy (SEM), and cathodoluminescence (CL) techniques. Most of the films exhibit growth features of hexagonal symmetry. Sn-doped Ga2O3 films exhibit n-type electrical conductivity. Heterojunctions composed of n-type hexagonal Ga2O3:Sn and p-type GaN:Mg demonstrate diode-like I-V characteristics and emit light under forward bias.

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Halide Vapor Phase Epitaxy α‐ and ε‐Ga₂O₃ Epitaxial Films Grown on Patterned Sapphire Substrates

Shapenkov

Vyvenko

Ubyivovk

et al. 2020

Physica Status Solidi (a)

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The growth of Ga2O3 films by halide vapor phase epitaxy on plain and cone‐shaped patterned sapphire substrates (PSS) is reported. The obtained specimens are characterized by X‐ray diffraction, transmission electron microscopy, cathodoluminescence, optical transmission spectroscopy, and current–voltage measurements. Both types of Ga2O3 layers are of reasonably high crystal qualities; their physical properties, however, are very different. Under the same conditions, the growth on plain substrates results in a continuous α‐Ga2O3 layer, whereas the growth on PSS produces a regular array of α‐Ga2O3 columns on top of the sapphire cones with the space between them filled with ε‐Ga2O3. Ga2O3 films grown on plain sapphire are insulating; in contrast, Ga2O3 films grown on PSS are conducting. It is found that the conductivity of Ga2O3 on PSS follows the Arrhenius law with the activation energy of 0.33 eV. New luminescent bands for α‐ and ε‐phases are found. Spectral components of the defect‐related luminescence for α‐ and ε‐ phases are identified.

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Growth and characterization of β-Ga2O3 crystals

Николаев

Maslov

Степанов

et al. 2017

Journal of Crystal Growth

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A. I. Pechnikov

Deep trap spectra of Sn-doped α-Ga2O3 grown by halide vapor phase epitaxy on sapphire

Editors’ Choice—Electrical Properties and Deep Traps in α-Ga₂O₃:Sn Films Grown on Sapphire by Halide Vapor Phase Epitaxy

HVPE Growth and Characterization of ε-Ga₂O₃ Films on Various Substrates

Halide Vapor Phase Epitaxy α‐ and ε‐Ga₂O₃ Epitaxial Films Grown on Patterned Sapphire Substrates

Growth and characterization of β-Ga2O3 crystals

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A. I. Pechnikov

Deep trap spectra of Sn-doped α-Ga2O3 grown by halide vapor phase epitaxy on sapphire

Editors’ Choice—Electrical Properties and Deep Traps in α-Ga2O3:Sn Films Grown on Sapphire by Halide Vapor Phase Epitaxy

HVPE Growth and Characterization of ε-Ga2O3 Films on Various Substrates

Halide Vapor Phase Epitaxy α‐ and ε‐Ga2O3 Epitaxial Films Grown on Patterned Sapphire Substrates

Growth and characterization of β-Ga2O3 crystals

Contact Info

Product

Resources

About

Editors’ Choice—Electrical Properties and Deep Traps in α-Ga₂O₃:Sn Films Grown on Sapphire by Halide Vapor Phase Epitaxy

HVPE Growth and Characterization of ε-Ga₂O₃ Films on Various Substrates

Halide Vapor Phase Epitaxy α‐ and ε‐Ga₂O₃ Epitaxial Films Grown on Patterned Sapphire Substrates