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Morphology and carrier mobility of high-B-content B x Al 1- x N ternary alloys from an ab initio global search.

Zhanbin QiZhiming ShiHang ZangXiaobao MaYuxin YangYuping JiaKe JiangXiaojuan SunDabing Li
Published in: Nanoscale (2022)
The excellent properties of III-nitrides and their alloys have led to significant applications in optoelectronic devices. Boron, the lightest IIIA group element, makes it possible to extend the flexibility of III-nitride alloys. However, both B x Al 1- x N and B x Ga 1- x N ternary alloys suffer from poor material quality during crystal growth, their B contents in experimental reports are no higher than 22%, and the underlying mechanism is still unclear. Herein, ab initio global calculation by particle swarm optimization combined with density functional theory is carried out to identify the ground structures of B x Al 1- x N alloys with different B contents ( x = 0.25, 0.5, and 0.75). Furthermore, the electronic properties and intrinsic carrier mobility are studied. For B 0.25 Al 0.75 N and B 0.75 Al 0.25 N, quasi-wurtzite and quasi-hexagonal structures are energetically favourable, respectively, indicating a wurtzite-to-hexagonal structural transition due to the three-coordinated B atoms being incorporated into the lattice. When the B content is 50%, B 0.5 Al 0.5 N shows a ten-membered ring structure with an indirect bandgap of 3.52 eV and strong anisotropy of mobility. Our results uncover the mechanism of the structural and electronic property evolution with B content and pave a route for the application of B-containing III-nitride alloys.
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