Investigation of AlInN HEMT structures with different AlGaN buffer layers grown on sapphire substrates by MOCVD

We investigate the structural and electrical properties of AlxIn1–xN/AlN/GaN heterostructures with AlGaN buffers grown by MOCVD, which can be used as an alternative to AlInN HEMT structures with GaN buffer. The effects of the GaN channel thickness and the addition of a content graded AlGaN layer to...

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Bibliographic Details
Published in:Current applied physics 2012, 12(6), , pp.1600-1605
Main Authors: Kelekci, O., Tasli, P., Cetin, S.S., Kasap, M., Ozcelik, S., Ozbay, E.
Format: Article
Language:English
Subjects:
Aluminum gallium nitrides
Aluminum nitride
Buffers
Channels
electric field
electrical properties
Electrical transport
Electronic band structure
Gallium nitrides
Heterostructures
High electron mobility transistors
Nitride materials
Semiconductor devices
temperature
X-ray diffraction
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Summary:We investigate the structural and electrical properties of AlxIn1–xN/AlN/GaN heterostructures with AlGaN buffers grown by MOCVD, which can be used as an alternative to AlInN HEMT structures with GaN buffer. The effects of the GaN channel thickness and the addition of a content graded AlGaN layer to the structural and electrical characteristics were studied through variable temperature Hall effect measurements, high resolution XRD, and AFM measurements. Enhancement in electron mobility was observed in two of the suggested AlxIn1−xN/AlN/GaN/Al0.04Ga0.96N heterostructures when compared to the standard AlxIn1–xN/AlN/GaN heterostructure. This improvement was attributed to better electron confinement in the channel due to electric field arising from piezoelectric polarization charge at the Al0.04Ga0.96N/GaN heterointerface and by the conduction band discontinuity formed at the same interface. If the growth conditions and design parameters of the AlxIn1−xN HEMT structures with AlGaN buffers can be modified further, the electron spillover from the GaN channel can be significantly limited and even higher electron mobilities, which result in lower two-dimensional sheet resistances, would be possible. ► AlGaN buffer layer in AlInN HEMTs was proposed as an alternative to GaN buffers. ► Effect of different buffer designs on electrical and structural properties examined. ► Electron mobility enhancement observed in the samples with AlGaN buffers. ► Lower GaN channel thickness leads to higher surface roughness.
ISSN:1567-1739
1878-1675
DOI:10.1016/j.cap.2012.05.040