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GaN film growth characteristics comparison in according to the type of buffer layers on PSS

Authors
Lee, C.-M.Kang, B.H.Kim, D.-S.Byun, D.
Issue Date
2014
Publisher
Korea Federation of Science and Technology
Keywords
AlN buffer; GaN; MOCVD; PSS; Thin film
Citation
Korean Journal of Materials Research, v.24, no.12, pp.645 - 651
Indexed
SCOPUS
KCI
Journal Title
Korean Journal of Materials Research
Volume
24
Number
12
Start Page
645
End Page
651
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/100775
DOI
10.3740/MRSK.2014.24.12.645
ISSN
1225-0562
Abstract
GaN is most commonly used to make LED elements. But, due to differences of the thermal expansion coefficient and lattice mismatch with sapphire, dislocations have occurred at about 109~1010/cm2. Generally, a low temperature GaN buffer layer is used between the GaN layer and the sapphire substrate in order to reduce the dislocation density and improve the characteristics of the thin film, and thus to increase the efficiency of the LED. Further, patterned sapphire substrate (PSS) are applied to improve the light extraction efficiency. In this experiment, using an AlN buffer layer on PSS in place of the GaN buffer layer that is used mainly to improve the properties of the GaN film, light extraction efficiency and overall properties of the thin film are improved at the same time. The AlN buffer layer was deposited by using a sputter and the AlN buffer layer thickness was determined to be 25 nm through XRD analysis after growing the GaN film at 1070 °C on the AlN buffer CPSS (C-plane Patterned Sapphire Substrate, AlN buffer 25 nm, 100 nm, 200 nm, 300 nm). The GaN film layer formed by applying a 2 step epitaxial lateral overgrowth (ELOG) process, and by changing temperatures (1020~1070 °C) and pressures (85~300 Torr). To confirm the surface morphology, we used SEM, AFM, and optical microscopy. To analyze the properties (dislocation density and crystallinity) of a thin film, we used HR-XRD and Cathodoluminescence. © Materials Research Society of Korea.
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