Achieving super-broad effective absorption bandwidth with low filler loading for graphene aerogels/raspberry-like CoFe2O4 clusters by N doping

Wang, Xiangyu; Liao, Jun; Du, Rongxiao; Wang, Guohui; Tsidaeva, Natalia; Wang, Wei

doi:10.1016/j.jcis.2021.01.069

Cited by 93 publications

(17 citation statements)

References 52 publications

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“…The existence of porous structure could extend the transmission path for EMW and promote multiple scattering and reflections, which are beneficial to impedance matching. [60] The HRTEM image (Figure 2j) shows that the interlayer spacing of the sample is 0.24 nm, which corresponds to the (104) lattice facet of NbS 2 , directly proving that the sample obtained is NbS 2 nanomaterials. Furthermore, the energy dispersive X-ray spectroscopy (EDS) spectrum (Figure S6, Supporting Information) obtained in the selected area of the aggregated stacked NbS 2 microspheres shows that sample N-4 is mainly composed of C, O, S, and Nb atoms (with atomic ratios C: O: S: Nb = 28.216: 12.408: 6.971: 52.404 at%), further verifying the previously discussed XPS results.…”

Section: Characterizationmentioning

confidence: 70%

Initiating VB‐Group Laminated NbS₂ Electromagnetic Wave Absorber toward Superior Absorption Bandwidth as Large as 6.48 GHz through Phase Engineering Modulation

Zhang

Cheng

Wang

et al. 2021

Adv Funct Materials

204

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VB-Group transition metal disulfides (TMDs) are considered excellent materials for electromagnetic wave (EMW) absorption because of their good conductivity and abundant active sites located at their edges and substrates, as compared with VIB-Group TMDs. Herein, for the first time, EMW absorbers based on VB-Group NbS 2 nanosheets by using a facile one-step solvothermal method are successfully prepared. The minimum reflection loss (RL min ) can reach up to 43.85 dB with an effective absorption bandwidth of 6.48 GHz (11.52-18.00 GHz). The remarkable EMW absorption performance can also be reflected in the tunable frequency bands (C-, X-, and Ku-bands), which is achieved by adjusting the contents of materials. Further more, the influence of the content of 2H-phase and 1T-phase in NbS 2 on the EMW absorption performance is systematically investigated. The hierarchical hollow-sphere structure of NbS 2 promotes dielectric loss and the multiple reflection and absorption of EMW, and enhances the impedance matching and synergistic attenuation ability. This work demonstrates that the bottleneck of effective absorbing frequency band of single-component dielectric EMW absorbing materials could be broken through, and paves a novel path towards developing broadband absorbing materials in EMW absorption.

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Section: Characterizationmentioning

confidence: 70%

Initiating VB‐Group Laminated NbS₂ Electromagnetic Wave Absorber toward Superior Absorption Bandwidth as Large as 6.48 GHz through Phase Engineering Modulation

Zhang

Cheng

Wang

et al. 2021

Adv Funct Materials

204

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“…Based on the transmission line theory, if the minimum R L could correspond to impedance matching ratio value (Z =|Z in /Z 0 |) equal 1 at the same frequency, the impedance of this material matches well. The calculation formula is as follows [56][57][58][59]:…”

Section: Emw Absorption Mechanismmentioning

confidence: 99%

MoS2-Decorated/Integrated Carbon Fiber: Phase Engineering Well-Regulated Microwave Absorber

et al. 2021

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Phase engineering is an important strategy to modulate the electronic structure of molybdenum disulfide (MoS2). MoS2-based composites are usually used for the electromagnetic wave (EMW) absorber, but the effect of different phases on the EMW absorbing performance, such as 1T and 2H phase, is still not studied. In this work, micro-1T/2H MoS2 is achieved via a facile one-step hydrothermal route, in which the 1T phase is induced by the intercalation of guest molecules and ions. The EMW absorption mechanism of single MoS2 is revealed by presenting a comparative study between 1T/2H MoS2 and 2H MoS2. As a result, 1T/2H MoS2 with the matrix loading of 15% exhibits excellent microwave absorption property than 2H MoS2. Furthermore, taking the advantage of 1T/2H MoS2, a flexible EMW absorbers that ultrathin 1T/2H MoS2 grown on the carbon fiber also performs outstanding performance only with the matrix loading of 5%. This work offers necessary reference to improve microwave absorption performance by phase engineering and design a new type of flexible electromagnetic wave absorption material to apply for the portable microwave absorption electronic devices.

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“…In fact, the D band arises from the sp 3 carbon defects and/or disorders (lattice distortion), while the G band arises from the graphitic C (in-plane vibration sp 2 carbon hybridization). 34 The I D / I G ratio actually measures the graphitization degree (degree of disorders). 35 Therefore, the values of I D / I G are calculated to be 0.88, 1.05 and 1.09 for GR, NG and CuO NG, respectively.…”

Section: Resultsmentioning

confidence: 99%

A ferromagnetic composite of PEDOT:PSS and nitrogen-graphene decorated with copper oxide nanoparticles with high anisotropic thermoelectric properties

El-Shamy

2023

J. Mater. Chem. C

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Achieving super-broad effective absorption bandwidth with low filler loading for graphene aerogels/raspberry-like CoFe2O4 clusters by N doping

Cited by 93 publications

References 52 publications

Initiating VB‐Group Laminated NbS₂ Electromagnetic Wave Absorber toward Superior Absorption Bandwidth as Large as 6.48 GHz through Phase Engineering Modulation

Initiating VB‐Group Laminated NbS₂ Electromagnetic Wave Absorber toward Superior Absorption Bandwidth as Large as 6.48 GHz through Phase Engineering Modulation

MoS2-Decorated/Integrated Carbon Fiber: Phase Engineering Well-Regulated Microwave Absorber

A ferromagnetic composite of PEDOT:PSS and nitrogen-graphene decorated with copper oxide nanoparticles with high anisotropic thermoelectric properties

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Achieving super-broad effective absorption bandwidth with low filler loading for graphene aerogels/raspberry-like CoFe2O4 clusters by N doping

Cited by 93 publications

References 52 publications

Initiating VB‐Group Laminated NbS2 Electromagnetic Wave Absorber toward Superior Absorption Bandwidth as Large as 6.48 GHz through Phase Engineering Modulation

Initiating VB‐Group Laminated NbS2 Electromagnetic Wave Absorber toward Superior Absorption Bandwidth as Large as 6.48 GHz through Phase Engineering Modulation

MoS2-Decorated/Integrated Carbon Fiber: Phase Engineering Well-Regulated Microwave Absorber

A ferromagnetic composite of PEDOT:PSS and nitrogen-graphene decorated with copper oxide nanoparticles with high anisotropic thermoelectric properties

Contact Info

Product

Resources

About

Initiating VB‐Group Laminated NbS₂ Electromagnetic Wave Absorber toward Superior Absorption Bandwidth as Large as 6.48 GHz through Phase Engineering Modulation

Initiating VB‐Group Laminated NbS₂ Electromagnetic Wave Absorber toward Superior Absorption Bandwidth as Large as 6.48 GHz through Phase Engineering Modulation