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Lattice-Polarity-Driven Epitaxy of Hexagonal Semiconductor Nanowires.
Wang, Ping; Yuan, Ying; Zhao, Chao; Wang, Xinqiang; Zheng, Xiantong; Rong, Xin; Wang, Tao; Sheng, Bowen; Wang, Qingxiao; Zhang, Yongqiang; Bian, Lifeng; Yang, Xuelin; Xu, Fujun; Qin, Zhixin; Li, Xinzheng; Zhang, Xixiang; Shen, Bo.
Afiliação
  • Wang P; State Key Laboratory of Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University , Beijing 100871, P. R. China.
  • Yuan Y; Collaborative Innovation Center of Quantum Matter , Beijing 100871, P. R. China.
  • Zhao C; State Key Laboratory of Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University , Beijing 100871, P. R. China.
  • Wang X; Collaborative Innovation Center of Quantum Matter , Beijing 100871, P. R. China.
  • Zheng X; King Abdullah University of Science and Technology , Division of Physical Science and Engineering and Core Laboratories, Thuwal 23955-6900, Kingdom of Saudi Arabia.
  • Rong X; State Key Laboratory of Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University , Beijing 100871, P. R. China.
  • Wang T; Collaborative Innovation Center of Quantum Matter , Beijing 100871, P. R. China.
  • Sheng B; State Key Laboratory of Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University , Beijing 100871, P. R. China.
  • Wang Q; State Key Laboratory of Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University , Beijing 100871, P. R. China.
  • Zhang Y; State Key Laboratory of Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University , Beijing 100871, P. R. China.
  • Bian L; State Key Laboratory of Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University , Beijing 100871, P. R. China.
  • Yang X; King Abdullah University of Science and Technology , Division of Physical Science and Engineering and Core Laboratories, Thuwal 23955-6900, Kingdom of Saudi Arabia.
  • Xu F; King Abdullah University of Science and Technology , Division of Physical Science and Engineering and Core Laboratories, Thuwal 23955-6900, Kingdom of Saudi Arabia.
  • Qin Z; Key Lab of Nanodevices and Applications, Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences (CAS) , Suzhou 215123, P. R. China.
  • Li X; State Key Laboratory of Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University , Beijing 100871, P. R. China.
  • Zhang X; State Key Laboratory of Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University , Beijing 100871, P. R. China.
  • Shen B; State Key Laboratory of Artificial Microstructure and Mesoscopic Physics, School of Physics, Peking University , Beijing 100871, P. R. China.
Nano Lett ; 16(2): 1328-34, 2016 Feb 10.
Article em En | MEDLINE | ID: mdl-26694227
Lattice-polarity-driven epitaxy of hexagonal semiconductor nanowires (NWs) is demonstrated on InN NWs. In-polarity InN NWs form typical hexagonal structure with pyramidal growth front, whereas N-polarity InN NWs slowly turn to the shape of hexagonal pyramid and then convert to an inverted pyramid growth, forming diagonal pyramids with flat surfaces and finally coalescence with each other. This contrary growth behavior driven by lattice-polarity is most likely due to the relatively lower growth rate of the (0001̅) plane, which results from the fact that the diffusion barriers of In and N adatoms on the (0001) plane (0.18 and 1.0 eV, respectively) are about 2-fold larger in magnitude than those on the (0001̅) plane (0.07 and 0.52 eV), as calculated by first-principles density functional theory (DFT). The formation of diagonal pyramids for the N-polarity hexagonal NWs affords a novel way to locate quantum dot in the kink position, suggesting a new recipe for the fabrication of dot-based devices.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Ano de publicação: 2016 Tipo de documento: Article
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Ano de publicação: 2016 Tipo de documento: Article