Thermal Conductivity Reduction in Si/Ge Core/Shell Nanowires

被引:10
|
作者
Crismari, Dmitrii V. [1 ]
Nike, Denis L. [1 ]
机构
[1] Moldova State Univ, Dept Theoret Phys, E Pokatilov Lab Phys & Engn Nanomat, MD-2009 Kishinev, Moldova
来源
JOURNAL OF NANOELECTRONICS AND OPTOELECTRONICS | 2012年 / 7卷 / 07期
关键词
Thermal Conductivity; Phonons; Nanowire; Valence Force Field Model; CRYSTAL SILICON LAYERS; PHONON CONFINEMENT; HETEROSTRUCTURES; NANOSTRUCTURES; SCATTERING; GE; SI;
D O I
10.1166/jno.2012.1421
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
We have theoretically demonstrated that hybridization of phonon modes in Si/Ge core/shell nanowires and corresponding decrease of average phonon group velocity lead to the suppression of phonon thermal conductivity in Si/Ge core/shell nanowires in comparison with generic homogeneous silicon nanowires. The phonon energy spectra were calculated using the Valence Force Field model of lattice vibrations, while thermal conductivities were obtained from the Boltzmann transport equation within the relaxation time approximation. Our results indicate that core/shell nanowires are good candidates for the efficient phonon engineering of their phonon and thermal properties.
引用
收藏
页码:701 / 705
页数:5
相关论文
共 50 条
  • [21] Characterization of Impurity Doping and Stress in Si/Ge and Ge/Si Core-Shell Nanowires
    Fukata, Naoki
    Mitome, Masanori
    Sekiguchi, Takashi
    Bando, Yoshio
    Kirkham, Melanie
    Hong, Jung-Il
    Wang, Zhong Lin
    Snydert, Robert L.
    ACS NANO, 2012, 6 (10) : 8887 - 8895
  • [22] Electron-acoustic-phonon interaction in core/shell Ge/Si and Si/Ge nanowires
    Santiago-Perez, Dario G.
    Trallero-Giner, C.
    Marques, G. E.
    PHYSICAL REVIEW B, 2017, 95 (15)
  • [23] Free-Standing Si and Ge, and Ge/Si Core-Shell Semiconductor Nanowires
    Peelaers, H.
    Partoens, B.
    Peeters, F. M.
    ACTA PHYSICA POLONICA A, 2012, 122 (02) : 294 - 298
  • [24] Boron distributions in individual core-shell Ge/Si and Si/Ge heterostructured nanowires
    Han, Bin
    Shimizu, Yasuo
    Wipakorn, Jevasuwan
    Nishibe, Kotaro
    Tu, Yuan
    Inoue, Koji
    Fukata, Naoki
    Nagai, Yasuyoshi
    NANOSCALE, 2016, 8 (47) : 19811 - 19815
  • [25] Ge/Si core/shell nanowires with controlled low temperature grown Si shell thickness
    Noguchi, Tomohiro
    Morita, Koudai
    Simanullang, Marolop
    Xu, Zhengyu
    Usami, Koichi
    Kawano, Yukio
    Kodera, Tetsuo
    Oda, Shunri
    PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE, 2015, 212 (07): : 1578 - 1581
  • [26] Ultralow thermal conductivity in Si/GexSi1-x core-shell nanowires
    Xie, Guofeng
    Li, Baohua
    Yang, Liwen
    Cao, Juexian
    Guo, Zhixin
    Tang, Minghua
    Zhong, Jianxin
    JOURNAL OF APPLIED PHYSICS, 2013, 113 (08)
  • [27] Theoretical phonon thermal conductivity of Si/Ge superlattice nanowires
    Dames, C
    Chen, G
    JOURNAL OF APPLIED PHYSICS, 2004, 95 (02) : 682 - 693
  • [28] Theoretical phonon thermal conductivity of Si/Ge superlattice nanowires
    Dames, C., 1600, American Institute of Physics Inc. (95):
  • [29] Effects of transverse geometry on the thermal conductivity of Si and Ge nanowires
    Heris, Hadi Rezaie
    Kateb, Movaffaq
    Erlingsson, Sigurdur I.
    Manolescu, Andrei
    SURFACES AND INTERFACES, 2022, 30
  • [30] Thermal conductivity measurement and analysis of Ge-SixGe1-x core-shell nanowires
    Park, Hyunjoon
    Han, Junkyu
    Dillen, David C.
    Park, Joonsuk
    Kim, Changho
    Sim, Minhyung
    Nah, Junghyo
    Lim, Jongwoo
    Tutuc, Emanuel
    Seol, Jae Hun
    APPLIED PHYSICS EXPRESS, 2019, 12 (04)
12345