Ammonia flux tailoring on the quality of AlN epilayers grown by pulsed atomic-layer epitaxy techniques on (0 0 0 1)-oriented sapphire substrates via MOCVD

Abd Rahman, Mohd Nazri and Talik, Noor Azrina and Abdul Khudus, Muhammad Imran Mustafa and Sulaiman, Abdullah Fadil and Allif, Kamarul and Zahir, Norhilmi Mohd and Shuhaimi, Ahmad (2019) Ammonia flux tailoring on the quality of AlN epilayers grown by pulsed atomic-layer epitaxy techniques on (0 0 0 1)-oriented sapphire substrates via MOCVD. CrystEngComm, 21 (12). pp. 2009-2017. ISSN 1466-8033, DOI https://doi.org/10.1039/C9CE00014C.

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Official URL: https://doi.org/10.1039/C9CE00014C

Abstract

A smooth and dense surface of single-crystalline aluminium nitride thin films has been epitaxially grown on (0 0 0 1)-sapphire substrates by tailoring and optimizing the ammonia flux density during deposition. The aluminium nitride films were deposited by metal organic chemical vapour deposition using the pulsed atomic-layer epitaxy technique at a relatively low growth temperature for ammonia flux densities between 2.2 and 0.2 standard litres per minute (SLM). It is found that the ammonia flux of 0.6 SLM produced the best quality of aluminium nitride films. Field emission scanning electron microscopy as well as atomic force microscopy images revealed a smooth, crack-free and dense surface of aluminium nitride films with the lowest root mean square roughness of 1.61 nm. The in-plane compressive strain inside aluminium nitride films, induced by the hetero-epitaxial growth on sapphire, was examined by focusing on the transition of the E2 (high) peak frequency obtained from the Raman spectra. The lowest threading and mixed-edge dislocation densities were estimated to be 1.50 × 107 and 3.7 × 109 cm−2, respectively, which are comparable to those of state-of-the-art aluminium nitride thin films. © The Royal Society of Chemistry.

Item Type: Article
Funders: Malaysia Ministry of Education (MOE) under LRGS (Wide Bandgap Semiconductor), Project No: LR001A-2016A, UMRG grant under project no: RP039C-18AFR
Uncontrolled Keywords: Aluminum gallium nitride; Aluminum nitride; Deep ultraviolet
Subjects: Q Science > Q Science (General)
Q Science > QC Physics
Divisions: Faculty of Science > Department of Physics
Depositing User: Ms. Juhaida Abd Rahim
Date Deposited: 30 Apr 2020 05:28
Last Modified: 30 Apr 2020 05:28
URI: http://eprints.um.edu.my/id/eprint/24246

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