Ultrathin Wood‐Derived Conductive Carbon Composite Film for Electromagnetic Shielding and Electric Heating Management

2023-01-31 | journal article. A publication with affiliation to the University of Göttingen.

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​Ultrathin Wood‐Derived Conductive Carbon Composite Film for Electromagnetic Shielding and Electric Heating Management​
Ma, X.; Pan, J.; Guo, H.; Wang, J.; Zhang, C.; Han, J. & Lou, Z. et al.​ (2023) 
Advanced Functional Materials33(16).​ DOI: https://doi.org/10.1002/adfm.202213431 

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Authors
Ma, Xiaofan; Pan, Junjie; Guo, Hongtao; Wang, Jingwen; Zhang, Chunmei; Han, Jingquan; Lou, Zhichao; Ma, Chunxin; Jiang, Shaohua; Zhang, Kai
Abstract
Recently, wood-based composites have absorbed widespread concern in the field of electromagnetic interference (EMI) shielding due to their sustainability and inherent layered porous structure. The channel structure of wood is often used to load highly conductive materials to improve the EMI shielding performance of wood-based composites. However, there is little research on how to use pure wood to prepare ultrathin EMI shielding materials. Herein, ultrathin veneer is obtained by cutting wood in parallel to the annual rings. Then, carbonized wood film (CWF) is prepared by a simple two-step compressing and carbonization. The specific EMI shielding effectiveness (SSE/t) of CWF-1200 with an ultrathin thickness (140 µm) and high electrical conductivity (58 S cm−1) can reach 9861.41 dB cm2 g−1, which is much higher than other reported wood-based materials. In addition, the zeolitie imidazolate framework-8 (ZIF-8) nanocrystals are grown in situ on the surface of the CWF to obtain CWF/ZIF-8. CWF/ZIF-8 exhibits an EMI shielding effectiveness (SE) of up to 46 dB and an ultrahigh SSE/t value of 11 330.04 dB cm2 g−1 in X band. In addition, the ultrathin CWF also shows an excellent Joule heating effect. Therefore, the development of ultrathin wood-based film provides a research basis for wood biomass to replace traditional non-renewable and expensive electromagnetic (EM) shielding materials.
Issue Date
31-January-2023
Journal
Advanced Functional Materials 
Organization
Fakultät für Forstwissenschaften und Waldökologie ; Burckhardt-Institut ; Abteilung Holztechnologie und Holzwerkstoffe 
ISSN
1616-301X
eISSN
1616-3028
Language
English
Sponsor
China Scholarship Council https://doi.org/10.13039/501100004543

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