Enhancing structural transition by carrier and quantum confinement: Stabilization of cubic InN quantum dots by Mn incorporation — Xiuqing Meng (2013) | RDL Network
Enhancing structural transition by carrier and quantum confinement: Stabilization of cubic InN quantum dots by Mn incorporation
Article 2013 en
Authors
XM
Xiuqing Meng
ZC
Zhanghui Chen
ZC
Zhuo Chen
Abstract
1 min read
We demonstrate in this work controllable synthesis of cubic InN nanocrystals` through Mn doping. We show that the pristine nanocrystal has the wurtzite structure, but can be converted into the zinc-blende (ZB) structure when it is doped with Mn. Our first-principles calculations show that the phase transition is caused by the stronger p-d coupling between the host p valence state and the impurity d level in the ZB structure, which makes the hole generation in the ZB structure easier. Quantum confinement in the nanocrystals further enhanced this effect. This observation lays an important foundation for defects control of crystal phases.
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