Issue 41, 2018

Crystal quality evolution of AlN films via high-temperature annealing under ambient N2 conditions

Abstract

The crystal quality evolution of AlN films via high-temperature (HT) annealing under nitrogen is investigated. It is found that the best crystal quality can be realized using an optimized combination of the annealing temperature at 1700 °C and an AlN thickness of 540 nm, respectively. Thus the X-ray diffraction ω-scan full width at half maximum (FWHM) values of 59 and 284 arcsec for (0002) and (10[1 with combining macron]2) diffractions were achieved, respectively. It is verified that the significant reduction in the threading dislocation density (TDD) via HT annealing starts from the interface zone between AlN and sapphire anterior to the zone far from the interface, which is caused by less energy being required to decrease the larger twist angle among the columns in the interface zone. Benefiting from the low-TDD annealed AlN template, the internal quantum efficiency of the 282-nm AlGaN-based multiple quantum wells reached 57% at 300 K.

Graphical abstract: Crystal quality evolution of AlN films via high-temperature annealing under ambient N2 conditions

Article information

Article type
Paper
Submitted
12 Jun 2018
Accepted
14 Sep 2018
First published
15 Sep 2018

CrystEngComm, 2018,20, 6613-6617

Crystal quality evolution of AlN films via high-temperature annealing under ambient N2 conditions

M. X. Wang, F. J. Xu, N. Xie, Y. H. Sun, B. Y. Liu, Z. X. Qin, X. Q. Wang and B. Shen, CrystEngComm, 2018, 20, 6613 DOI: 10.1039/C8CE00967H

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