2023
DOI: 10.1016/j.carbon.2023.03.067
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Wood biomass-derived carbon for high-performance electromagnetic wave absorbing and shielding

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Cited by 56 publications
(9 citation statements)
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“…The profiles suggest that the RL min and EAB max shift to a lower thickness (Supporting Information, Figure S3). According to the quarter wavelength (1/4λ) matching model, the RL min and EAB max of the wave absorbing materials usually shift to small thickness with the increase of frequency, as the wavelength of electromagnetic wave decreases with the increase of frequency. Figure g–i depicts the impedance matching changes with frequency and thickness.…”
Section: Resultsmentioning
confidence: 99%
“…The profiles suggest that the RL min and EAB max shift to a lower thickness (Supporting Information, Figure S3). According to the quarter wavelength (1/4λ) matching model, the RL min and EAB max of the wave absorbing materials usually shift to small thickness with the increase of frequency, as the wavelength of electromagnetic wave decreases with the increase of frequency. Figure g–i depicts the impedance matching changes with frequency and thickness.…”
Section: Resultsmentioning
confidence: 99%
“…As a result, the lighter, thinner and flexible EMI films have become a research hotspot. Till now, carbon materials, including carbon black, graphene, C 60 , carbon nanotubes, carbon fibers, and other allotropes, have a series of advantages such as lightweight, easy processing, good chemical stability, high conductivity, and high‐temperature resistance, which can act as the ideal substitutes for high‐performance EMI shielding materials 10–14 …”
Section: Introductionmentioning
confidence: 99%
“…This focus has emerged from the pursuit of high-performance materials for absorbing and shielding electromagnetic waves (EMWs), which are characterized by their robust shielding capabilities, lightweight nature, low thickness, and broad operating bandwidth range. [5,6] Traditionally, metals are used for absorbing and shielding EMW; however, their applications are restricted due to excessive weight, limited flexibility, and susceptibility to corrosion. [7,8] Researchers have been looking for a new material to balance suitable mechanical properties, high-energy-storage devices with high efficiency, strong durability, and high conductivity without compromising other properties.…”
mentioning
confidence: 99%
“…[33] Cellulose, one of the most abundant natural biopolymers, with lightweight, renewable, degradable, and nonpolluting qualities, is the Earth's most abundant natural organic polymer and has excellent potential for applications. [6] It is a suitable candidate for replacing synthetic plastic polymers. This material (cellulose) is a viable replacement for petroleum-based goods since it is nontoxic, biodegradable, renewable, and good for the environment.…”
mentioning
confidence: 99%
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