Enhanced microwave absorbing performance of CoNi alloy nanoparticles anchored on a spherical carbon monolith

Na Li; Changwen Hu; Minhua Cao

doi:10.1039/c3cp50778e

Enhanced microwave absorbing performance of CoNi alloy nanoparticles anchored on a spherical carbon monolith

Na Li, Changwen Hu, Minhua Cao^*

^*此作品的通讯作者

化学与化工学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

110 引用（Scopus）

摘要

CoNi alloy nanoparticles anchored on a spherical carbon monolith (CoNi-C) were prepared by a solvothermal route and subsequent heat treatment without any templates. Their permittivity and permeability behaviors were studied in the frequency range of 2-18 GHz. The CoNi-C composites showed the best microwave absorbing performances compared to those of Co-C and Ni-C. The maximum reflection loss of the CoNi-C nanocomposites can reach -50.2 dB at 7.7 GHz with samples of 4 mm in thickness, better than that of the Ni-C composites, while the Co-C composites showed almost no absorption at all. The absorption mechanism of the three absorbents was also discussed.

源语言	英语
页（从-至）	7685-7689
页数	5
期刊	Physical Chemistry Chemical Physics
卷	15
期	20
DOI	https://doi.org/10.1039/c3cp50778e
出版状态	已出版 - 28 5月 2013

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Li, N., Hu, C., & Cao, M. (2013). Enhanced microwave absorbing performance of CoNi alloy nanoparticles anchored on a spherical carbon monolith. Physical Chemistry Chemical Physics, 15(20), 7685-7689. https://doi.org/10.1039/c3cp50778e

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N2 - CoNi alloy nanoparticles anchored on a spherical carbon monolith (CoNi-C) were prepared by a solvothermal route and subsequent heat treatment without any templates. Their permittivity and permeability behaviors were studied in the frequency range of 2-18 GHz. The CoNi-C composites showed the best microwave absorbing performances compared to those of Co-C and Ni-C. The maximum reflection loss of the CoNi-C nanocomposites can reach -50.2 dB at 7.7 GHz with samples of 4 mm in thickness, better than that of the Ni-C composites, while the Co-C composites showed almost no absorption at all. The absorption mechanism of the three absorbents was also discussed.

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Enhanced microwave absorbing performance of CoNi alloy nanoparticles anchored on a spherical carbon monolith

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