Realizing crack-free high-aluminum-mole-fraction AlGaN on patterned GaN beyond the critical layer thickness
Frank Mehnke,Alec M. Fischer,Zhiyu Xu,Henri Bouchard,Theeradetch Detchprohm,Shyh-Chiang Shen,Fernando Ponce,Russell D. Dupuis +7 more
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In this article , a non-planar growth approach was proposed to enable the deposition of crack-free high-Al-mole-fraction AlxGa1−xN on patterned GaN/sapphire templates and bulk GaN substrates with large-area mesas.Abstract:
Wide-bandgap III-nitride heterostructures are required for a variety of device applications. However, this alloy system has a large lattice constant and thermal expansion coefficient mismatch that limits the alloy composition and layer thickness for many heteroepitaxial device structures. Consequently, various methods have been devised to allow the heteroepitaxial growth of AlInGaN heterostructures to accommodate this inherent strain. In this work, we describe a non-planar-growth approach that enables the deposition of crack-free high-Al-mole-fraction AlxGa1−xN on patterned GaN/sapphire templates and bulk GaN substrates with large-area mesas. We have studied the effects of the patterned mesa width, the mesa etch depth, and the gap between the mesas on the heteroepitaxy of AlxGa1−xN superlattices with an average Al molar fraction 0.11 < x¯ < 0.21 and non-planar overgrowth growth thicknesses up to 3.5 μm. Similar to the planar growth approach, increasing the thickness and Al mole fraction of the AlxGa1−xN superlattices leads to surface cracking when exceeding the critical layer thickness. However, limiting the mesa dimension in one direction enables strain mitigation and drastically increases the critical layer thickness. Additionally, larger etch depths of the mesas increase the Al alloy composition and thickness for crack-free AlGaN heteroepitaxy whereas the gap in between the mesas seems to have no crucial influence. We demonstrate that the Al alloy composition and layer thicknesses of such heterostructures can be increased far beyond the critical layer thickness for planar growth and demonstrate the growth of a crack-free full AlxGa1−xN/GaN quantum-well laser heterostructure designed for operation at ∼370 nm. read more
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Wide bandgap semiconductor materials and devices
TL;DR: In this article , the authors present a survey of the state of the art in bioinformatics and biomedicine research, including the following papers: http://www.firstpage
Journal ArticleDOI
Non-planar growth of high Al-mole-fraction AlGaN on patterned GaN platforms for mitigating strain-induced cracks beyond the critical layer thickness
Yuto Ando,Frank Mehnke,Henri Bouchard,Zhiyu Xu,Alec M. Fischer,Shyh-Chiang Shen,Fernando Ponce,Theeradetch Detchprohm,Russell D. Dupuis +8 more
TL;DR: In this article , a nonplanar growth of AlxGa1-xN epitaxial layers with an average alloy composition up to Al-mole fraction of x ∼ 0.21 was performed on patterned c-plane GaN on (0001) sapphire substrates with stripe-shaped mesa structures.
Journal ArticleDOI
Core-shell GaN/AlGaN nanowires grown by selective area epitaxy.
TL;DR: In this paper , GaN/AlGaN core-shell nanowires with various Al compositions have been grown on GaN nanowire array using selective area metal organic chemical vapor deposition technique.
References
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Journal ArticleDOI
Calculation of critical layer thickness versus lattice mismatch for GexSi1−x/Si strained‐layer heterostructures
R. People,John C. Bean +1 more
TL;DR: In this article, the critical layer thickness for growth of GexSi1−x strained layers on Si substrates is calculated for 0≤x≤1.0.
Journal ArticleDOI
Defects in epitaxial multilayers: II. Dislocation pile-ups, threading dislocations, slip lines and cracks
J.W. Matthews,A.E. Blakeslee +1 more
TL;DR: The role of dislocation pile-ups and superkinks in the propagation of dislocations through multilayers is discussed in this article, where they are made to relieve elastic stresses generated as a result of misfit between the multilayer taken as a whole and its substrate.
Journal ArticleDOI
Energy band‐gap bowing parameter in an AlxGa1−x N alloy
TL;DR: In this article, optical measurements were performed near the fundamental absorption edge for singlecrystal AlxGa1−x N epitaxial layers in the composition range of 0≤x≤0.4.
Journal ArticleDOI
In situ measurements of the critical thickness for strain relaxation in AlGaN∕GaN heterostructures
S. R. Lee,Daniel D. Koleske,K. C. Cross,Jerrold A. Floro,K. E. Waldrip,A. T. Wise,S. Mahajan +6 more
TL;DR: In this article, the critical thickness for strain relaxation in AlxGa1−xN∕GaN heterostructures with 0.14⩽x ⩽1.5 cm was determined using in situ wafer-curvature measurements of thin-film stress.
Journal ArticleDOI
Brittle-ductile relaxation kinetics of strained AlGaN'GaN heterostructures
Sean J. Hearne,Jung Han,S. R. Lee,Jerrold A. Floro,David M. Follstaedt,Eric Chason,Ignatius S. T. Tsong +6 more
TL;DR: In this paper, the authors measured the stress evolution during metal-organic chemical vapor deposition of AlGaN/GaN heterostructures on sapphire and correlated in situ stress measurements with ex situ microstructural analysis to determine directly a critical thickness for cracking and the subsequent relaxation kinetics of tensile-strained AlxGa1−xN grown on GaN.