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CoxFey@C Composites with Tunable Atomic Ratios for Excellent Electromagnetic Absorption Properties.


ABSTRACT: The shell on the nano-magnetic absorber can prevent oxidation, which is very important for its practical utilization. Generally, the nonmagnetic shell will decrease the integral magnetic loss and thus weaken the electromagnetic absorption. However, maintaining the original absorption properties of the magnetic core is a major challenge. Here, we designed novel and facile CoxFey@C composites by reducing CoxFe3-xO4@phenolic resin (x?=?1, 0.5 and 0.25). High saturation magnetization value (Ms) of CoxFey particle, as a core, shows the interesting magnetic loss ability. Meanwhile, the carbon shell may increase the integral dielectric loss. The resulting composite shows excellent electromagnetic absorption properties. For example, at a coating thickness of 2?mm, the RLmin value can reach to -23?dB with an effective frequency range of 7?GHz (11-18?GHz). The mechanisms of the improved microwave absorption properties are discussed.

SUBMITTER: Lv H 

PROVIDER: S-EPMC4676003 | biostudies-literature | 2015 Dec

REPOSITORIES: biostudies-literature

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CoxFey@C Composites with Tunable Atomic Ratios for Excellent Electromagnetic Absorption Properties.

Lv Hualiang H   Ji Guangbin G   Zhang Haiqian H   Li Meng M   Zuo Zhongzheng Z   Zhao Yue Y   Zhang Baoshan B   Tang Dongming D   Du Youwei Y  

Scientific reports 20151211


The shell on the nano-magnetic absorber can prevent oxidation, which is very important for its practical utilization. Generally, the nonmagnetic shell will decrease the integral magnetic loss and thus weaken the electromagnetic absorption. However, maintaining the original absorption properties of the magnetic core is a major challenge. Here, we designed novel and facile CoxFey@C composites by reducing CoxFe3-xO4@phenolic resin (x = 1, 0.5 and 0.25). High saturation magnetization value (Ms) of C  ...[more]

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