Enhancement in microwave absorption properties by adjusting the sintering conditions and carbon shell thickness of Ni@C submicrospheres

Xun Shen; Shu Hao Yang; Peng Gang Yin; Chao Qin Li; Jin Rui Ye; Guang Sheng Wang

doi:10.1039/d1ce01525g

Enhancement in microwave absorption properties by adjusting the sintering conditions and carbon shell thickness of Ni@C submicrospheres

Xun Shen, Shu Hao Yang, Peng Gang Yin, Chao Qin Li^*, Jin Rui Ye^*, Guang Sheng Wang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

The combination of traditional magnetic metal materials and dielectric carbon materials to improve microwave absorption properties has generated great interest. In this work, Ni@C submicrospheres were successfully synthesized by sintering the Ni@RF precursor and were compounded with a polymer matrix PVDF because of their excellent dielectric and mechanical properties. The outstanding microwave absorption performance was obtained by adjusting the sintering conditions and carbon shell thickness to achieve good impedance matching and high attenuation capability. It was found that the Ni@C/PVDF composite (850 °C, 3 h, d(carbon) = 64.3 nm) shows excellent microwave absorption performance with a strong absorption value of -71.32 dB at 14.04 GHz, a broad bandwidth of 5.62 GHz and a thin matched the thickness of 1.95 mm. These findings provide a method for designing high-performance microwave absorption materials.

Original language	English
Pages (from-to)	765-774
Number of pages	10
Journal	CrystEngComm
Volume	24
Issue number	4
DOIs	https://doi.org/10.1039/d1ce01525g
Publication status	Published - 28 Jan 2022
Externally published	Yes

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abstract = "The combination of traditional magnetic metal materials and dielectric carbon materials to improve microwave absorption properties has generated great interest. In this work, Ni@C submicrospheres were successfully synthesized by sintering the Ni@RF precursor and were compounded with a polymer matrix PVDF because of their excellent dielectric and mechanical properties. The outstanding microwave absorption performance was obtained by adjusting the sintering conditions and carbon shell thickness to achieve good impedance matching and high attenuation capability. It was found that the Ni@C/PVDF composite (850 °C, 3 h, d(carbon) = 64.3 nm) shows excellent microwave absorption performance with a strong absorption value of -71.32 dB at 14.04 GHz, a broad bandwidth of 5.62 GHz and a thin matched the thickness of 1.95 mm. These findings provide a method for designing high-performance microwave absorption materials.",

author = "Xun Shen and Yang, {Shu Hao} and Yin, {Peng Gang} and Li, {Chao Qin} and Ye, {Jin Rui} and Wang, {Guang Sheng}",

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AU - Shen, Xun

AU - Yang, Shu Hao

AU - Yin, Peng Gang

AU - Li, Chao Qin

AU - Ye, Jin Rui

AU - Wang, Guang Sheng

PY - 2022/1/28

Y1 - 2022/1/28

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AB - The combination of traditional magnetic metal materials and dielectric carbon materials to improve microwave absorption properties has generated great interest. In this work, Ni@C submicrospheres were successfully synthesized by sintering the Ni@RF precursor and were compounded with a polymer matrix PVDF because of their excellent dielectric and mechanical properties. The outstanding microwave absorption performance was obtained by adjusting the sintering conditions and carbon shell thickness to achieve good impedance matching and high attenuation capability. It was found that the Ni@C/PVDF composite (850 °C, 3 h, d(carbon) = 64.3 nm) shows excellent microwave absorption performance with a strong absorption value of -71.32 dB at 14.04 GHz, a broad bandwidth of 5.62 GHz and a thin matched the thickness of 1.95 mm. These findings provide a method for designing high-performance microwave absorption materials.

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Enhancement in microwave absorption properties by adjusting the sintering conditions and carbon shell thickness of Ni@C submicrospheres

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