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首页> 外文期刊>Crystal growth & design >Crystal Growth and Characterization of LixLa(1-x)/3NbO3 by the Traveling Solvent Floating Zone Method
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Crystal Growth and Characterization of LixLa(1-x)/3NbO3 by the Traveling Solvent Floating Zone Method

机译:行进溶剂浮区法的晶晶生长和Lixla(1-x)/ 3n32的表征

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摘要

Single crystals of LixLa(1-x)/3NbO3 were grown successfully using the traveling solvent floating zone method with LaNbO4-poor and Li-rich solvents. Crack- and inclusion-free single crystals with a typical diameter and length of 6 and 35 mm, respectively, were obtained. The crystals grown under Ar flow were black in color, and become colorless and transparent upon oxygen annealing. The composition of the grown crystals was uniform with x = 0.070 +/- 0.001, which was lower that of feeds with x = 0.10 because of vaporization of the lithium component from the melt during growth. The ionic conductivity of the annealed crystal was anisotropic with sigma([100]) = 1.2 X 10(-4) S.cm(-1) and sigma([001]) = 7.4 X 10(-5) S.cm(-1).
机译:利用Lanbo4-Per和Li-Rich溶剂的行进溶剂浮区法成功地成功地生长了Lixla(1-x)/ 3nbO3的单晶。 获得分别具有典型直径和长度为6和35mm的无裂缝和自由的单晶分别。 在Ar流下生长的晶体颜色为黑色,并且在氧气退火时变为无色透明。 生长晶体的组成具有均匀的X = 0.070 +/- 0.001,其由于锂组分在生长期间溶液而较低的X = 0.10的进料。 退火晶体的离子电导率与Sigma([100])= 1.2×10(-4)S.cm(-1)和σ([001])= 7.4×10(-5)S.cm( -1)。

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  • 来源
    《Crystal growth & design》 |2019年第11期|共5页
  • 作者

    Ali Md Shahajan; Sato Nobuyoshi; Fukasawa Ikuya; Maruyama Yuki; Nagao Masanori; Watauchi Satoshi; Tanaka Isao;

  • 作者单位

    Univ Yamanashi Ctr Crystal Sci &

    Technol 7-32 Miyamae Kofu Yamanashi Japan;

    Univ Yamanashi Ctr Crystal Sci &

    Technol 7-32 Miyamae Kofu Yamanashi Japan;

    Univ Yamanashi Ctr Crystal Sci &

    Technol 7-32 Miyamae Kofu Yamanashi Japan;

    Univ Yamanashi Ctr Crystal Sci &

    Technol 7-32 Miyamae Kofu Yamanashi Japan;

    Univ Yamanashi Ctr Crystal Sci &

    Technol 7-32 Miyamae Kofu Yamanashi Japan;

    Univ Yamanashi Ctr Crystal Sci &

    Technol 7-32 Miyamae Kofu Yamanashi Japan;

    Univ Yamanashi Ctr Crystal Sci &

    Technol 7-32 Miyamae Kofu Yamanashi Japan;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 晶体学;
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