Liquan Fan , Honglin Ai , Meiye Jiao , Yao Li , Yongheng Jin , Yiru Fu , Jing Wang , Yuwei Wang , Deqing Zhang , Guangping Zheng , Junye Cheng
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引用次数: 0
摘要
随着电磁技术的发展和对电子设备需求的增长,人们对电磁污染的担忧日益加剧。这激发了对创新型电磁吸收剂的重点研究,尤其是以其卓越的吸收能力而著称的铬化砷化物。在本研究中,我们首次采用直接煅烧法成功合成了 3R-TaS2 纳米片。这些纳米片在 C 波段(4-8 GHz)和 Ku 波段(12-18 GHz)频率范围内均表现出显著的吸收能力。通过优化煅烧过程,TaS2 的复介电常数得到了提高,尤其是在 1000 °C 下合成 24 小时的纳米片。这种纳米片具有双波段吸收特性,在 C 波段的最小反射损耗(RLmin)为 -41.4 dB,而在 C 波段和 Ku 波段,厚度为 5.6 mm 的吸收体的平均吸收强度超过 10 dB。此外,在厚度为 3.5-5.5 毫米的吸收器中,3R-TaS2 纳米片的有效吸收带宽为 5.04 GHz(3.84-8.88 GHz)。这些结果凸显了 3R-TaS2 的叠层结构所产生的多重反射效应,有望成为一种低频吸收器。
Low-frequency and dual-band microwave absorption properties of novel VB-group disulphides (3R–TaS2) nanosheets
As electromagnetic technology advances and demand for electronic devices grows, concerns about electromagnetic pollution intensify. This has spurred focused research on innovative electromagnetic absorbers, particularly chalcogenides, noted for their superior absorption capabilities. In this study, we successfully synthesize 3R–TaS2 nanosheets using a straightforward calcination method for the first time. These nanosheets exhibit significant absorption capabilities in both the C-band (4–8 GHz) and Ku-band (12–18 GHz) frequency ranges. By optimizing the calcination process, the complex permittivity of TaS2 is enhanced, specifically for those synthesized at 1000 °C for 24 h. The nanosheets possess dual-band absorption properties, with a notable minimum reflection loss (RLmin) of −41.4 dB in the C-band, and an average absorption intensity exceeding 10 dB in C- and Ku-bands, in the absorbers with a thickness of 5.6 mm. Additionally, the 3R–TaS2 nanosheets are demonstrated to have an effective absorption bandwidth of 5.04 GHz (3.84–8.88 GHz) in the absorbers with thicknesses of 3.5–5.5 mm. The results highlight the multiple reflection effects in 3R–TaS2 as caused by their stacked structures, which could be promising low-frequency absorbers.
期刊介绍:
Nano Materials Science (NMS) is an international and interdisciplinary, open access, scholarly journal. NMS publishes peer-reviewed original articles and reviews on nanoscale material science and nanometer devices, with topics encompassing preparation and processing; high-throughput characterization; material performance evaluation and application of material characteristics such as the microstructure and properties of one-dimensional, two-dimensional, and three-dimensional nanostructured and nanofunctional materials; design, preparation, and processing techniques; and performance evaluation technology and nanometer device applications.
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