Covalent organic framework-derived hollow core-shell Fe/Fe3O4@porous carbon composites with corrosion resistance for lightweight and efficient microwave absorption

Zhu, Xiaojie; Dong, Yanyan; Pan, Fei; Xiang, Zhen; Liu, Zhicheng; Deng, Baiwen; Zhang, Xiang; Shi, Zhong; Lu, Wei

doi:10.1016/j.coco.2021.100731

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Covalent organic framework-derived hollow core-shell Fe/Fe3O4@porous carbon composites with corrosion resistance for lightweight and efficient microwave absorption

Author(s): Xiaojie Zhu , Yanyan Dong , Fei Pan , Zhen Xiang , Zhicheng Liu , Baiwen Deng , Xiang Zhang , Zhong Shi , Wei Lu

Publication date Created: June 2021

Publication date (Print): June 2021

Journal: Composites Communications

Publisher: Elsevier BV

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Most cited references 19

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Interpretation of Raman spectra of disordered and amorphous carbon

A. C. Ferrari, J. Robertson (2000)

Physical Review B, 61(20), 14095-14107

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Porous, crystalline, covalent organic frameworks.

Adrien P Côté, Annabelle I Benin, Nathan W Ockwig … (2005)

Covalent organic frameworks (COFs) have been designed and successfully synthesized by condensation reactions of phenyl diboronic acid {C6H4[B(OH)2]2} and hexahydroxytriphenylene [C18H6(OH)6]. Powder x-ray diffraction studies of the highly crystalline products (C3H2BO)6.(C9H12)1 (COF-1) and C9H4BO2 (COF-5) revealed expanded porous graphitic layers that are either staggered (COF-1, P6(3)/mmc) or eclipsed (COF-5, P6/mmm). Their crystal structures are entirely held by strong bonds between B, C, and O atoms to form rigid porous architectures with pore sizes ranging from 7 to 27 angstroms. COF-1 and COF-5 exhibit high thermal stability (to temperatures up to 500 degrees to 600 degrees C), permanent porosity, and high surface areas (711 and 1590 square meters per gram, respectively).