AbstractIn this work, a core–shell dendritic CuO@TiO2was constructed through a two-step chemical m'/> Core-shell structured dendritic CuO@TiO_2 for high-k P(VDF-HFP) composites with suppressed dielectric loss and enhanced thermal conductivity
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首页> 外文期刊>Journal of materials science >Core-shell structured dendritic CuO@TiO_2 for high-k P(VDF-HFP) composites with suppressed dielectric loss and enhanced thermal conductivity
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Core-shell structured dendritic CuO@TiO_2 for high-k P(VDF-HFP) composites with suppressed dielectric loss and enhanced thermal conductivity

机译:核-壳结构的树枝状CuO @ TiO_2,用于抑制介电损耗并提高导热性的高k P(VD​​F-HFP)复合材料

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摘要

AbstractIn this work, a core–shell dendritic CuO@TiO2was constructed through a two-step chemical method. Structural analysis confirms the successful coating of TiO2on the CuO and the dendritic morphology was maintained after the coating process. The composites were prepared by using ferroelectric P(VDF-HFP) as matrix and synthesized particles as filler. The introduction of fillers influences the melting and crystallization process of the polymer matrix without altering the composition. The insulator layer suppresses the conductivity and dielectric loss by blocking the charge carriers while the composites exhibit improved dielectric constant in the frequency wide range of 102–106Hz and enhanced thermal conductivity. The composite with 20% CuO@TiO2exhibits a high dielectric constant of 51.7, low loss of 0.11 at 1 kHz and high thermal conductivity of 0.382 W/mK, showing huge potential for dielectric applications.
机译: 摘要 在这项工作中,使用了核壳型树枝状CuO @ TiO 2 通过两步化学方法构建。结构分析证实了TiO 2 在CuO上的成功包覆,并在包覆过程后保持了树枝状形态。以铁电P(VDF-HFP)为基体,合成颗粒为填料,制备了复合材料。填料的引入在不改变组成的情况下影响聚合物基质的熔融和结晶过程。绝缘层通过阻挡电荷载流子来抑制电导率和介电损耗,而复合材料在10 2 –10 6 Hz的宽频率范围内表现出改善的介电常数,并提高了散热性电导率。具有20%CuO @ TiO 2 的复合材料具有51.7的高介电常数,1 kHz的低损耗0.11以及0.382 W / mK的高导热率,显示出巨大的电介质应用潜力。 Para>

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  • 来源
    《Journal of materials science》 |2018年第2期|1269-1279|共11页
  • 作者

    Liang Hu; Yuting Xia; Qianqian Wang; Hui Yang; Qi-long Zhang;

  • 作者单位

    School of Materials Science and Engineering, State Key Lab Silicon Mat, Zhejiang University;

    School of Materials Science and Engineering, State Key Lab Silicon Mat, Zhejiang University;

    School of Materials Science and Engineering, State Key Lab Silicon Mat, Zhejiang University;

    School of Materials Science and Engineering, State Key Lab Silicon Mat, Zhejiang University;

    School of Materials Science and Engineering, State Key Lab Silicon Mat, Zhejiang University;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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  • 正文语种 eng
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  • 入库时间 2022-08-17 13:43:18

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