N-polar InN layers were deposited using MOCVD on GaN-on-sapphire templates which were miscut 4 degrees towards the GaN m-direction. For thin layers, quantum dot-like features were spontaneously formed to relieve the strain between the InN and GaN layers. As the thickness was increased, the dots elongated along the step direction before growing outward perpendicular to the step direction and coalescing to form a complete InN layer. XRD reciprocal space maps indicated that the InN films relaxed upon quantum dot formation after nominally 1 nm thick growth, resulting in 5-7 nm tall dots with diameters around 20-50 nm. For thicker layers above 10 nm, high electron mobilities of up to 706 cm(2) /V s were measured using Hall effect measurements indicating high quality layers. Published by AIP Publishing.
Metal-organic chemical vapor deposition of N-polar InN quantum dots and thin films on vicinal GaN
Catalano Massimo;
2018
Abstract
N-polar InN layers were deposited using MOCVD on GaN-on-sapphire templates which were miscut 4 degrees towards the GaN m-direction. For thin layers, quantum dot-like features were spontaneously formed to relieve the strain between the InN and GaN layers. As the thickness was increased, the dots elongated along the step direction before growing outward perpendicular to the step direction and coalescing to form a complete InN layer. XRD reciprocal space maps indicated that the InN films relaxed upon quantum dot formation after nominally 1 nm thick growth, resulting in 5-7 nm tall dots with diameters around 20-50 nm. For thicker layers above 10 nm, high electron mobilities of up to 706 cm(2) /V s were measured using Hall effect measurements indicating high quality layers. Published by AIP Publishing.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
