Multifunctional Integrated Transparent Film for Efficient Electromagnetic Protection

Wang, Gehuan; Zhao, Yue; Feng, Yongbao; Zhang, Yi; Zhou, Ming; Ji, Guangbin

doi:10.1007/s40820-022-00810-y

Cited by 139 publications

(61 citation statements)

References 55 publications

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“…The increasing electromagnetic wave (EMW) interference radiation and pollution is severely threatening human health and affecting electronic instruments. In view of this situation, various traditional EMW absorbers, including graphene, carbon nanotubes, ferrite and silicon carbide, have been synthesized to address these issues [ 1 – 6 ]. Despite decent EMW, absorption performance has been obtained for the traditional EMW absorbers, and there are still some shortcomings, such as high filling ratio, high matching thickness and narrow effective bandwidth (EBW), which impedes their practical applications [ 7 ].…”

Section: Introductionmentioning

confidence: 99%

Macroscopic Electromagnetic Cooperative Network-Enhanced MXene/Ni Chains Aerogel-Based Microwave Absorber with Ultra-Low Matching Thickness

et al. 2022

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Electromagnetic cooperative strategy has been presented as a mainstream approach that can effectively optimize the matching thickness of dielectric loss dominant system. However, it is still challenging for dielectric–magnetic loss coexisting-type absorber to develop electromagnetic wave (EMW) performance with ultra-low matching thickness (≤ 1 mm). Breaking the limitation of traditional electromagnetic response at microscopic/mesoscopic scale, a ficus microcarpa-like magnetic aerogel with macroscopical electromagnetic cooperative effect was fabricated through highly oriented self-assembly engineering. The highly oriented Ni chains with unique macroscopic morphology (~ 1 cm in length) were achieved via a special magnetic field-induced growth. Strong magnetic coupling was observed in the Ni chains confirmed by the micromagnetic simulation. The deductive calculation validates that maintaining high value of electromagnetic parameters at high frequencies is the prerequisites of ultrathin absorber. The electromagnetic cooperative networks with uninterrupted and dual pathways spread through the entire aerogel skeleton, resulting in the impressive permittivity even at high frequencies. Consequently, the aerogel exhibits a remarkable EMW performance at an ultrathin thickness of 1 mm. Thus, based on the modulation of electromagnetic parameters, this work proposed a macroscopic ordered structure with the electromagnetic cooperative effect useful to develop a suitable strategy for achieving ultrathin EMW absorbers.

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Section: Introductionmentioning

confidence: 99%

Macroscopic Electromagnetic Cooperative Network-Enhanced MXene/Ni Chains Aerogel-Based Microwave Absorber with Ultra-Low Matching Thickness

et al. 2022

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“…As for textiles woven from metal fibers [30][31][32], the high thermal conductivity of metals limits their application in high-temperature environments. As we know, SiC has superior electromagnetic characteristics [33][34][35], excellent optical, electronic, and thermal properties, low cost, high hardness, good stability, and environmental friendliness [36]. However, SiC nanoparticles and nanosheets are prone to agglomeration, which have certain limitations in practical applications.…”

Section: Introduction mentioning

confidence: 99%

Ultralight and hyperelastic SiC nanofiber aerogel spring for personal thermal energy regulation

Song

Fan²,

Chen³

et al. 2022

J Adv Ceram

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Multifunctionalization is the development direction of personal thermal energy regulation equipment in the future. However, it is still a huge challenge to effectively integrate multiple functionalities into one material. In this study, a simple thermochemical process was used to prepare a multifunctional SiC nanofiber aerogel spring (SiC NFAS), which exhibited ultralow density (9 mg/cm3), ultralow thermal conductivity (0.029 W/(m·K) at 20 °C), excellent ablation and oxidation resistance, and a stable three-dimensional (3D) structure that composed of a large number of interlacing 3C-SiC nanofibers with diameters of 300–500 nm and lengths in tens to hundreds of microns. Furthermore, the as-prepared SiC NFAS displayed excellent mechanical properties, with a permanent deformation of only 1.3% at 20 °C after 1000 cycles. Remarkably, the SiC NFAS exhibited robust hyperelasticity and cyclic fatigue resistance at both low (∼−196 °C) and high (∼700 °C) temperatures. Due to its exceptional thermal insulation performance, the SiC NFAS can be used for personal thermal energy regulation. The results of the study conclusively show that the SiC NFAS is a multifunctional material and has potential insulation applications in both low- and high-temperature environments.

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“…Therefore, it is necessary to find an easy-obtained carbon material to replace these aforementioned expensive carbon matrices for mass-produce MAMs, and further meet the practical application. [13][14][15][16] Semicoke (SC), a type of coal hydrogasification residue, is a kind of by-product in the process of converting coal into liquid and gaseous fuels, including the main components of carbon, ash, and some volatile substances. [17,18] The emission of SC rapidly increases with the continuous expansion scale of coal hydrogasification production.…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, it is necessary to find an easy‐obtained carbon material to replace these aforementioned expensive carbon matrices for mass‐produce MAMs, and further meet the practical application. [ 13–16 ]…”

Section: Introductionmentioning

confidence: 99%

Magnetic Carbon Composites Derived from Coal Hydrogasification Residue for Microwave Absorption

Mao

Liang

et al. 2022

Physica Status Solidi (a)

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To cut the cost of microwave absorption materials (MAMs) and achieve the recycling of semicoke (SC), the by‐product in coal hydrogasification process, SC was applied to prepare composite MAMs. The facile synthesis process involves liquid‐phase impregnation, and then in situ carbothermal reduction treatment. Champion sample prepared under 800 °C (FeSC800) exhibits the minimum reflection loss (RLmin) of −39.3 dB under a coating thickness of 2.5 mm, and the effective absorption bandwidth (EAB) can reach 3.9 GHz (14.1–18 GHz) at a coating thickness of 1.5 mm. The enhancement of interfacial and dipole polarization, as well as the synergistic effect between the dielectric properties of SC matrix and the magnetic properties of Fe particles, can account for the excellent microwave absorption (MA) performance. In view of the source of SC matrix, the prepared FeSC800 was not only expected to become a candidate in the field of MAMs, but also presented a promising approach for the resource utilization of SC.

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Multifunctional Integrated Transparent Film for Efficient Electromagnetic Protection

Cited by 139 publications

References 55 publications

Macroscopic Electromagnetic Cooperative Network-Enhanced MXene/Ni Chains Aerogel-Based Microwave Absorber with Ultra-Low Matching Thickness

Macroscopic Electromagnetic Cooperative Network-Enhanced MXene/Ni Chains Aerogel-Based Microwave Absorber with Ultra-Low Matching Thickness

Ultralight and hyperelastic SiC nanofiber aerogel spring for personal thermal energy regulation

Magnetic Carbon Composites Derived from Coal Hydrogasification Residue for Microwave Absorption

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