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    請使用永久網址來引用或連結此文件: https://irlib.pccu.edu.tw/handle/987654321/45501


    題名: Thermal conductivity and stability for ultrathin SiO2 nanowires: insight from molecular dynamics simulation
    作者: Su, CH (Su, Chia-Hao)
    Chen, HL (Chen, Hui-Lung)
    Ju, SP (Ju, Shin-Pon)
    Liao, BY (Liao, Bo-Yuan)
    Pan, CT (Pan, Cheng-Tang)
    貢獻者: 化學系
    關鍵詞: iO2 nanowire
    non-equilibrium molecular dynamics simulation
    thermal conductivity
    thermal stability
    日期: 2019-10
    上傳時間: 2019-12-17 09:37:30 (UTC+8)
    摘要: The thermal character of ultrathin silica (SiO2) nanowires was studied by molecular dynamics simulation, whose structures have been predicted in our previous study. Eight structures including two-, three-, four-, five-membered ring structures (2MR, 2MR-20, 3MR-30, 4MR-40, and 5MR50), 4MR-3facet, 4MR-4facet, 4MR-5facet (4MR-3f, 4MR-4f, and 4MR-5f) were considered for different nanowire sizes. Thermal conductivities of all nanowire structures were derived from the inverse ratio of thermal conductivity to the length of the simulated cell by non-equilibrium molecular dynamics simulation (NEMD). For the membered and faceted nanowires, the thermal conductivity considerably increases when the nanowire size decreases. For the membered nanowires, the thermal conductivities of 2MR and 5MR-50 were about 162 and 20.5 times higher than that of bulk silica, and for the faceted nanowires, the thermal conductivities of 4MR-3f and 4MR-5f were about 24.6 and 13.5 times higher than that ofbulk silica. The thermal stability of these nanowires was also investigated during the heating process of 300 to 5000 K, and variations of Si-O-Si and O-Si-O angles with the increasing temperature were used to indicate their melting points. The simulation results show the structures of all SiO2 nanowires are still stable at temperatures over 3000 K, which is much higher than the melting point of bulk silica about 1978 K. The simulation results have concluded that SiO2 nanowires are potential materials with ultra-high thermal conductivities and can be safely used in an environment at the temperature higher than 3000 K.
    關聯: MATERIALS RESEARCH EXPRESS 卷冊: 6 期: 10 文獻號碼: 105073
    顯示於類別:[化學系所] 期刊論文

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