Polarized Raman studies of single GaN nanowire and GaN/AlN hetero-nanowire structures

Abstract

We report the Raman results obtained from single GaN, GaN/AlN core–shell, and GaN/AlN branched nanowires (NWs). Polarized Raman spectra from a single GaN NW showed strong anisotropic behavior, in agreement with the Raman polarization selection rules for a wurtzite crystal, indicating the high crystalline quality of the NW. A Raman spectrum from a single GaN NW revealed several optical phonons, including A1(TO), A1(LO), and E2H phonons at 530.5, 724.2, and 567.0 cm−1, respectively. Fabricating an AlN shell layer on the side wall of the GaN core NW shifted the GaN A1(LO) phonon energy upward by 5.7 cm−1, indicating that compressive strain occurred in the GaN core. The formation of AlN nanorod branches on the GaN/AlN core–shell surface shifted the A1(LO) phonon energy downward toward the value of the GaN NW, indicating a relaxation of the compressive strain in the GaN core. In particular, a broad phonon response was observed at 691.8 cm−1 on the low-energy shoulder of the GaN A1(LO) phonon peak. A careful analysis of this mode identified that the 691.8 cm−1 mode corresponded to a defect-related phonon, not to a surface optical phonon.