Bandgap, electrical and structural properties of thick InN (0001) films grown under optimal conditions
Abstract
The improvement potential for the structural, electrical and opto-electronic properties of heteroepitaxial InN-on-GaN (0001) films by using optimal conditions (substrate temperature, In and N fluxes) of plasma-assisted molecular beam epitaxy and increasing the epilayer thickness to few micrometres has been investigated. The increase of InN thickness to 3.7 μm resulted to a-type component threading dislocation density of 6x109 cm-2 and directly measured electron mobility of 2330 cm2/Vs and concentration of 4.5x1017 cm-3. The optical bandgap of this film at 300K was 0.637 eV. However, a degradation in the integrity of the interfacial InN/GaN region was observed in films thicker than 1 μm, with the formation of voids and the nucleation of microcracks, which may be related to strain relaxation or thermal decomposition.
- Publication:
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Journal of Physics Conference Series
- Pub Date:
- May 2019
- DOI:
- 10.1088/1742-6596/1190/1/012010
- Bibcode:
- 2019JPhCS1190a2010A