W. Kroll scite author profile

W. Kroll

2Publications

8Citation Statements Received

14Citation Statements Given

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Affiliations

Emcore (United States), Somerset Medical Center, Rutgers, The State University of New Jersey

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Investigation of n- and p-type doping of GaN during epitaxial growth in a mass production scale multiwafer-rotating-disk reactor

Yuan

Salagaj

Gurary

et al. 1995

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n- and p-doped GaN thin films have been epitaxially grown on c-sapphire substrates by metal-organic chemical-vapor deposition in a production scale multiwafer-rotating-disk reactor. The in situ doping was performed with material having a low background carrier concentration of n∼mid-1016 cm−3. Biscyclopentadienyl magnesium (Cp2Mg) and disilane (Si2H6) were used as the precursors for the p and n dopants, Mg and Si, respectively. The effect of mole flow on material, electrical, and optical properties was studied. We observed that both n- and p-type doped GaN exhibited an excellent surface morphology, even with a high mole flow of doping precursors. After the Mg-doped GaN was annealed in a N2 ambient at ∼700 °C for 30–60 min, the highly resistive GaN was converted into p-type GaN with a low resistance of 0.1–1.0 Ω cm. Transmission electron microscopy showed that the defect density on the annealed Mg-doped GaN is only 4×109 cm−2 which is of the same order as undoped GaN (1.5×109 cm−2). One of the best p-GaN samples has a Hall carrier concentration of 5.2×1018 cm−3 and a hole mobility of 20 cm2/V s, which are the best values reported in the literature to date. The photoluminescence spectra of p-GaN show a strong band edge at 430 nm with a full width at half-maximum of 300 meV at room temperature.

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High Quality P‐Type GaN Deposition on c‐Sapphire Substrates in a Multiwafer Rotating‐Disk Reactor

Yuan

Salagaj

Gurary

et al. 1995

J. Electrochem. Soc.

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Very high quality p-type GaN thin films have been epitaxiallyogrown on c-sapphire substrates by the MOCVD technique in a multiwafer rotating-disk reactor at 1040~ with a GaN buffer layer of -200 A grown at 530~ The undoped GaN films have a low n-type background carrier concentration of -5 x 1016 cm -~ with an x-ray FWHMGaN(0OO2) of 280 arc-sec across the 1 in. substrate. Biscyclopentadienyl magnesium (Cp2Mg) was used as the precursor Cp2Mg, the p-dopant. The Mg-doped GaN wafers retained an excellent surface morphology. In addition, after post annealing in N2 ambient at -700~ for an hour, the Hall measurements show 6.7 x 1017 to 5.2 x 1018 cm -3 carrier concentration depending on Cp2Mg flow rate, with a hole mobility of 10-20 cm2/V-s which is the best mobility for those hole concentrations reported in the literature to date.

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W. Kroll

Investigation of n- and p-type doping of GaN during epitaxial growth in a mass production scale multiwafer-rotating-disk reactor

High Quality P‐Type GaN Deposition on c‐Sapphire Substrates in a Multiwafer Rotating‐Disk Reactor

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