Growth and characterization of pendeo-epitaxial GaN ( 1 1 2 ¯ 0 ) on 4H–SiC ( 1 1 2 ¯ 0 ) substrates

Growth and characterization of pendeo-epitaxial GaN ( 1 1 2 ¯ 0 ) on 4H–SiC ( 1 1 2 ¯ 0 ) substrates

Growth on AlN/4H–SiC ( 1 1 2 ¯ 0 ) substrates of coalesced, non-polar GaN ( 1 1 2 ¯ 0 ) films having volumes of material with reduced densities of dislocations and stacking faults has been achieved from etched stripes via the statistical and experimental determination of the effect of temperature an...

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Veröffentlicht in:Journal of crystal growth 2006-05, Vol.290 (2), p.504-512
Hauptverfasser: Wagner, B.P., Reitmeier, Z.J., Park, J.S., Bachelor, D., Zakharov, D.N., Liliental-Weber, Z., Davis, R.F.
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Sprache:eng
Schlagworte:
A1. Atomic force microscopy, A1. Crystal morphology
A1. Surfaces
A3. Metalorganic chemical vapor deposition
A3. Pendeo-epitaxy
B1. Nitrides
B2. Semiconducting III–V materials
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Materials science
Methods of deposition of films and coatings
film growth and epitaxy
Physics
Vapor phase epitaxy
growth from vapor phase
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container_end_page 512
container_issue 2
container_start_page 504
container_title Journal of crystal growth
container_volume 290
creator Wagner, B.P.
Reitmeier, Z.J.
Park, J.S.
Bachelor, D.
Zakharov, D.N.
Liliental-Weber, Z.
Davis, R.F.
description Growth on AlN/4H–SiC ( 1 1 2 ¯ 0 ) substrates of coalesced, non-polar GaN ( 1 1 2 ¯ 0 ) films having volumes of material with reduced densities of dislocations and stacking faults has been achieved from etched stripes via the statistical and experimental determination of the effect of temperature and V/III ratio on the lateral and vertical growth rates of the GaN{0 0 0 1} faces combined with pendeo-epitaxy. AFM of the uncoalesced GaN(0 0 0 1) and GaN ( 0 0 0 1 ¯ ) vertical faces revealed growth steps with some steps terminating at dislocations on the former and a pitted surface without growth steps, indicative of decomposition, on the latter. Coalescence was achieved via (a) a two-step route and the parameters of (1) T = 1100 ° C and V / III = 1323 for 40 min and (2) 1020 °C and V / III = 660 for 40 min and (b) a one-step route that employed T = 1020 ° C and a V/III ratio = 660 for 6 h. The densities of dislocations in the GaN grown vertically over and laterally from the ( 1 1 2 ¯ 0 ) stripes were ∼4×10 10 cm −2 and ∼2×10 8 cm −2, respectively; the densities of stacking fault in these volumes were ∼1×10 6 cm −1 and ∼2×10 4 cm −1, respectively. The defects in the wing material were observed primarily at the bottom of the film where lateral growth of the GaN occurred from the AlN and the SiC. Plan view AFM also revealed different microstructures and a reduction in the RMS roughness values from 1.2 to 0.95 nm in these respective regions.
doi_str_mv 10.1016/j.jcrysgro.2006.02.011
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AFM of the uncoalesced GaN(0 0 0 1) and GaN ( 0 0 0 1 ¯ ) vertical faces revealed growth steps with some steps terminating at dislocations on the former and a pitted surface without growth steps, indicative of decomposition, on the latter. Coalescence was achieved via (a) a two-step route and the parameters of (1) T = 1100 ° C and V / III = 1323 for 40 min and (2) 1020 °C and V / III = 660 for 40 min and (b) a one-step route that employed T = 1020 ° C and a V/III ratio = 660 for 6 h. The densities of dislocations in the GaN grown vertically over and laterally from the ( 1 1 2 ¯ 0 ) stripes were ∼4×10 10 cm −2 and ∼2×10 8 cm −2, respectively; the densities of stacking fault in these volumes were ∼1×10 6 cm −1 and ∼2×10 4 cm −1, respectively. The defects in the wing material were observed primarily at the bottom of the film where lateral growth of the GaN occurred from the AlN and the SiC. 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Plan view AFM also revealed different microstructures and a reduction in the RMS roughness values from 1.2 to 0.95 nm in these respective regions.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.jcrysgro.2006.02.011</doi><tpages>9</tpages></addata></record>
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subjects A1. Atomic force microscopy, A1. Crystal morphology
A1. Surfaces
A3. Metalorganic chemical vapor deposition
A3. Pendeo-epitaxy
B1. Nitrides
B2. Semiconducting III–V materials
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Materials science
Methods of deposition of films and coatings
film growth and epitaxy
Physics
Vapor phase epitaxy
growth from vapor phase
title Growth and characterization of pendeo-epitaxial GaN ( 1 1 2 ¯ 0 ) on 4H–SiC ( 1 1 2 ¯ 0 ) substrates
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