SCIENCE SPIN-OFFS

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Piezoelectric properties of Ga2O3: a first-principle study
San-Dong Guo, Hui-Min Du

(Submitted on 18 Sep 2019)

The compounds exhibit piezoelectricity, which demands to break inversion symmetry, and then to be a semiconductor. For Ga2O3, the orthorhombic case (?-Ga2O3) of common five phases breaks inversion symmetry. Here, the piezoelectric tensor of ?-Ga2O3 is reported by using density functional perturbation theory (DFPT). To confirm semiconducting properties of ?-Ga2O3, its electronic structures are studied by using generalized gradient approximation (GGA) and Tran and Blaha's modified Becke and Johnson (mBJ) exchange potential. The gap value of 4.66 eV is predicted with mBJ method, along with the the effective mass tensor for electrons at the conduction band minimum (CBM) [about 0.24 m0]. The mBJ gap is very close to the available experimental value. The elastic tensor Cij and piezoelectric stress tensor eij are attained by DFPT, and then piezoelectric strain tensor dij are calculated from Cij and eij. In this process, average mechanical properties of ?-Ga2O3 are estimated, such as bulk modulus, Shear modulus, Young's modulus and so on. The calculated dij are comparable and even higher than commonly used piezoelectric materials such as a-quartz, ZnO, AlN and GaN.

https://arxiv.org/abs/1909.08503