Journal
NANO-MICRO LETTERS
Volume 13, Issue 1, Pages -Publisher
SHANGHAI JIAO TONG UNIV PRESS
DOI: 10.1007/s40820-021-00658-8
Keywords
Carbon-based MOF derivatives; Special structures; Multiple attenuation mechanisms; Impedance matching; EMW absorption
Funding
- National Natural Science Foundation of China [51572157, 21902085, 51702188]
- Natural Science Foundation of Shandong Province [ZR2019QF012, ZR2019BEM024, ZR2016BM16]
- Fundamental Research Funds of Shandong University [2018JC036, 2018JC046, 2018JC047]
- Qilu Young Scholar Program of Shandong [31370088963043]
- Young Scholars Program of Shandong University [2018WLJH25]
- Key Technology Research and Development Program of Shandong [2019JZZY010312]
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Metal-organic framework (MOF) derivatives show great potential in the field of electromagnetic wave (EMW) absorption due to their unique properties, satisfying diverse application requirements. Despite facing challenges, MOF derivatives exhibit outstanding performance in light weight, broad bandwidth, and robust loss capacity, offering possibilities for further research and development.
To tackle the aggravating electromagnetic wave (EMW) pollution issues, high-efficiency EMW absorption materials are urgently explored. Metal-organic framework (MOF) derivatives have been intensively investigated for EMW absorption due to the distinctive components and structures, which is expected to satisfy diverse application requirements. The extensive developments on MOF derivatives demonstrate its significantly important role in this research area. Particularly, MOF derivatives deliver huge performance superiorities in light weight, broad bandwidth, and robust loss capacity, which are attributed to the outstanding impedance matching, multiple attenuation mechanisms, and destructive interference effect. Herein, we summarized the relevant theories and evaluation methods, and categorized the state-of-the-art research progresses on MOF derivatives in EMW absorption field. In spite of lots of challenges to face, MOF derivatives have illuminated infinite potentials for further development as EMW absorption materials.
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