Mukun He, Xiao Zhong, Xinghan Lu, Jinwen Hu, Kunpeng Ruan, Hua Guo, Yali Zhang, Yongqiang Guo* and Junwei Gu*. Excellent Low-frequency Microwave Absorption and High Thermal Conductivity in Polydimethylsiloxane Composites Endowed by Hydrangea-like CoNi@BN Heterostructure Fillers. Advanced Materials, 2024, 36: 2410186. 2023IF=27.4
https://doi.org/10.1002/adma.202410186
Abstract
The advancement of thin, lightweight, and high-power electronic devices has increasingly exacerbated issues related to electromagnetic interference and heat accumulation. To address these challenges, we employed a spray-drying-sintering process to assemble chain-like CoNi and flake boron nitride (BN) into hydrangea-like CoNi@BN heterostructure fillers. These fillers were then composited with polydimethylsiloxane (PDMS) to develop CoNi@BN/PDMS composites, which integrate low-frequency microwave absorption and thermal conductivity. When the volume fraction of CoNi@BN is 44 vol% and the mass ratio of CoNi to BN is 3:1, the CoNi@BN/PDMS composites exhibit optimal performance in both low-frequency microwave absorption and thermal conductivity. These composites achieve a minimum reflection loss of -49.9 dB and a low-frequency effective absorption bandwidth of 2.40 GHz (3.92~6.32 GHz) at a thickness of 4.4 mm, fully covering the n79 band (4.4~5.0 GHz) for 5G communications. Meanwhile, the in-plane thermal conductivity (λ∥) of the CoNi@BN/PDMS composites is 7.31 W m-1 K-1, which is about 11.4 times of the λ∥ (0.64 W m-1 K-1) for pure PDMS, and 32% higher than that of the (CoNi/BN)/PDMS composites (5.52 W m-1 K-1) with the same volume fraction of CoNi and BN obtained through direct mixing.
電子設備的輕薄化和高功率化發(fā)展,導致其電磁干擾和熱量聚集問題愈發(fā)嚴重。本文采用“噴霧干燥-燒結”工藝將鏈狀CoNi和片狀BN組裝為繡球花狀CoNi@BN異質結構填料,再將其與聚二甲基硅氧烷(PDMS)復合制備低頻吸波/導熱一體化CoNi@BN/PDMS復合材料。當CoNi@BN的體積分數為44 vol%且CoNi與BN質量比為3:1時,CoNi@BN/PDMS復合材料兼具最優(yōu)的低頻吸波性能和導熱系數,厚度為4.4 mm時最小反射損耗(RLmin)為-49.9 dB、低頻有效吸收帶寬(EAB)為2.40 GHz(3.92~6.32 GHz),完全覆蓋5G通訊涉及的n79(4.4~5.0 GHz)頻段,其面內導熱系數(λ∥)為7.31 W m-1 K-1,約為純PDMS的λ∥(0.64 W m-1 K-1)的11.4倍,較相同CoNi和BN體積分數且直接共混的(CoNi/BN)/PDMS復合材料的λ∥(5.52 W m-1 K-1)提高了32%。
論文亮點
1. 采用“噴霧干燥-燒結”工藝將一維鏈狀CoNi和二維片狀BN組裝成繡球花狀CoNi@BN異質結構填料。當CoNi與BN質量比為3:1時,CoNi@BN具有優(yōu)異的阻抗匹配和低頻吸波性能。
2. 當CoNi@BN的體積分數為44 vol%時,4.4 mm的CoNi@BN/PDMS復合材料RLmin為-49.9 dB、低頻EAB為2.40 GHz(3.92~6.32 GHz),完全覆蓋了5G的n79頻段(4.4~5.0 GHz)。
3. 當CoNi@BN的體積分數為44 vol%時,CoNi@BN/PDMS復合材料的λ∥為7.31 W m-1 K-1,約為純PDMS的λ∥(0.64 W m-1 K-1)的11.4倍,較相同CoNi和BN體積分數且直接共混的(CoNi/BN)/PDMS復合材料的λ∥(5.52 W m-1 K-1)提高了32%。
第一作者:何沐錕
郵箱地址:hemukun@mail.nwpu.edu.cn