Hexagonal GaN nanostructure via electrochemical etching
DOI:
https://doi.org/10.56053/6.3.87Keywords:
Hexagonal, Nanostructure, EtchingAbstract
Gallium nitride GaN thin films were deposited on Si (111) substrates using electrochemical deposition technique at 20 °C. SEM images and EDX results indicated that the growth of GaN films varies with the current density. XRD and Raman analyses showed the presence of hexagonal wurtzite and cubic zinc blende GaN phases with the crystallite size around 18–19 nm. Photoluminescence spectrum showed that the energy gaps of h-GaN/Si (111) and c-GaN/Si (111) were near 3.39 eV and 3.2 eV respectively at 300 K. Raman spectrum indicated the presence of mixed phonon modes of hexagonal and cubic GaN.
References
-[1] Abraham George, Exp. Theo. NANOTECHNOLOGY 5 (2021) 37
-[2] Zain A.Muhammad, Tariq J. Alwan, Exp. Theo. NANOTECHNOLOGY 5 (2021) 47
-[3] Aseel I. Mahmood, Shehab A. Kadhim,Nadia F. Mohammed,Intisar A. Naseef, Exp. Theo. NANOTECHNOLOGY 5 (2021) 57
-[4] Jasinski J, Swider W, Liliental-Weber Z, Visconti P, Jones KM, Reshchikov MA, et al. J Appl Phys Lett 78 (2001) 2297
-[5] Nahlah E, Srinivasa RS, Major S, Sabharwal SC, Muthe KP. J Thin Solid Films 333 (1998) 9
-[6] Janik JF, Wells RL. Chem Mater 8 (1996) 2708
-[7] Jung WS, Min BK. Mater Lett 58 (2004) 3058
-[8] Katayama J, Izaki M. J Appl Electrochem 30 (2000) 855
-[9] Roy RK, Pal AK. Mater Lett 59 (2005) 2204
-[10] Strite S, Morkoc H. J Vac Sci Technol B10 (1992) 1237
-[11] Barfels T, Fitting HJ, Jansons J, Tale I, Veispals A, Czarnowski von A, Appl Surf Sci 179 (2001) 191
-[12] Zhang H, Ye Z, Zhao B. J Appl Phys 87 (2000) 2830
-[13] Deb B, Chaudhuri S, Pal AK. Mater Lett 53 (2002) 68
-[14] Rhee SJ, Kim S, Reuter EE, Bishop SG, Molnar RJ. Appl Phys Lett 73 (1998) 2636
-[15] Zi J, Wei G, Zhang K, Xie X. J Phys Condensed Matter 8 (1996) 6329