Title :
Heteroepitaxy of GaN on Si(111)
Author :
Krost, A. ; Dadgar, A.
Author_Institution :
Inst. for Exp. Phys., Otto-von-Guericke Univ., Magdeburg, Germany
fDate :
30 June-5 July 2002
Abstract :
The growth of high-quality group-III-nitrides on silicon is very attractive for low-cost optoelectronic and electronic devices such as light emitting diodes or field effect transistor. However, attempts to grow GaN on Si suffered from large lattice and thermal mismatch and the strong chemical reactivity of Ga and Si at elevated temperatures so far. The latter problem can be easily solved using gallium-free seed layers AlN. The key problem for device structure growth on Si is the thermal mismatch leading to cracks for layer thicknesses above 1 μm. The cracks can be overcome by several concepts as, e.g patterning the substrate and/or the insertion of low-temperature (LT) AlN interlayers which enable the growth of device-relevant GaN thicknesses.
Keywords :
III-V semiconductors; MOCVD; aluminium compounds; field effect transistors; gallium compounds; light emitting diodes; semiconductor epitaxial layers; semiconductor growth; vapour phase epitaxial growth; wide band gap semiconductors; AlN interlayers; AlN-GaN; GaN compounds; Si; Si(111) substrate; chemical reactivity; cracks; device structure growth; electronic devices; field effect transistor; heteroepitaxy; lattice mismatch; light emitting diodes; optoelectronics; thermal mismatch; Atomic layer deposition; Chemicals; Epitaxial growth; Etching; Gallium nitride; Lattices; Light emitting diodes; Silicon; Substrates; Temperature;
Conference_Titel :
Semiconducting and Insulating Materials, 2002. SIMC-XII-2002. 12th International Conference on
Print_ISBN :
0-7803-7418-5
DOI :
10.1109/SIM.2002.1242722
