Abstract
The structural stability of AlN nanowires have been analyzed in wurtzite (B4), zincblende (B3), rocksalt (B1) and CsCl (B2) type phases using density functional theory based ab initio approach. The total energy calculations have been performed in a self-consistent manner using local density approximation as exchange correlation functional. The analysis finds the B4 type phase as most stable amongst the other phases taken into consideration and observes the structural phase transition from B4 → B3, B4 → B1, B4 → B2, B3 → B1 and B3 → B2 at 42.7, 76.54, 142, 30.4 and 108.9 GPa respectively. Lattice parameter, bulk modulus and pressure derivatives of AlN nanowires have also been calculated for all the stable phases. The electronic band structure analysis of AlN nanowires shows a semiconducting nature in its B4, B3 and B1 type phases, whereas the B2 type phase is found to be metallic.
Acknowledgements
The authors are thankful to ABV-Indian Institute of Information Technology and Management, Gwalior for providing the infrastructural support. Neha Tyagi is also thankful to IIITM for the award of a PhD scholarship.