Co/C Composite Derived from a Newly Constructed Metal-Organic Framework for Effective Microwave Absorption

Bao Yong Zhu; Peng Miao; Jie Kong; Xiu Ling Zhang; Guang Yin Wang; Kai Jie Chen

doi:10.1021/acs.cgd.9b00064

Co/C Composite Derived from a Newly Constructed Metal-Organic Framework for Effective Microwave Absorption

Bao Yong Zhu, Peng Miao, Jie Kong, Xiu Ling Zhang, Guang Yin Wang, Kai Jie Chen

School of Chemistry and Chemical Engineering

Research output: Contribution to journal › Article › peer-review

85 Scopus citations

Abstract

The discovery of efficient electromagnetic wave absorbing materials for solving serious electromagnetic wave pollution is an urgent task. By rational design and assembly, a new three-dimensional metal-organic framework (MOF, CPT-1-Co) with the Co ions was constructed and employed as the precursor for the fabrication of Co/C composites via pyrolysis at high temperatures. The resultant Co/C composite pyrolyzed at 700 °C can absorb more than 90% of an EM wave at 2-18 GHz by the alternation of fabrication thickness. The effective absorption bandwidth can reach as high as 5.4 GHz at a thin thickness of 1.7 mm, which is superior to that of most EM wave absorbers. The bottom-up protocol in this report represents the first attempt to pyrolyze a new MOF for microwave absorber fabrication, which will provide valuable insight for designing more advanced MOFs and their applications in efficient electromagnetic wave absorption.

Original language	English
Pages (from-to)	1518-1524
Number of pages	7
Journal	Crystal Growth and Design
Volume	19
Issue number	3
DOIs	https://doi.org/10.1021/acs.cgd.9b00064
State	Published - 6 Mar 2019

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abstract = "The discovery of efficient electromagnetic wave absorbing materials for solving serious electromagnetic wave pollution is an urgent task. By rational design and assembly, a new three-dimensional metal-organic framework (MOF, CPT-1-Co) with the Co ions was constructed and employed as the precursor for the fabrication of Co/C composites via pyrolysis at high temperatures. The resultant Co/C composite pyrolyzed at 700 °C can absorb more than 90% of an EM wave at 2-18 GHz by the alternation of fabrication thickness. The effective absorption bandwidth can reach as high as 5.4 GHz at a thin thickness of 1.7 mm, which is superior to that of most EM wave absorbers. The bottom-up protocol in this report represents the first attempt to pyrolyze a new MOF for microwave absorber fabrication, which will provide valuable insight for designing more advanced MOFs and their applications in efficient electromagnetic wave absorption.",

author = "Zhu, {Bao Yong} and Peng Miao and Jie Kong and Zhang, {Xiu Ling} and Wang, {Guang Yin} and Chen, {Kai Jie}",

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AU - Zhu, Bao Yong

AU - Miao, Peng

AU - Kong, Jie

AU - Zhang, Xiu Ling

AU - Wang, Guang Yin

AU - Chen, Kai Jie

PY - 2019/3/6

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AB - The discovery of efficient electromagnetic wave absorbing materials for solving serious electromagnetic wave pollution is an urgent task. By rational design and assembly, a new three-dimensional metal-organic framework (MOF, CPT-1-Co) with the Co ions was constructed and employed as the precursor for the fabrication of Co/C composites via pyrolysis at high temperatures. The resultant Co/C composite pyrolyzed at 700 °C can absorb more than 90% of an EM wave at 2-18 GHz by the alternation of fabrication thickness. The effective absorption bandwidth can reach as high as 5.4 GHz at a thin thickness of 1.7 mm, which is superior to that of most EM wave absorbers. The bottom-up protocol in this report represents the first attempt to pyrolyze a new MOF for microwave absorber fabrication, which will provide valuable insight for designing more advanced MOFs and their applications in efficient electromagnetic wave absorption.

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Co/C Composite Derived from a Newly Constructed Metal-Organic Framework for Effective Microwave Absorption

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