Journal
CHEMICAL ENGINEERING JOURNAL
Volume 452, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2022.139042
Keywords
Nature -inspired; Hierarchical microstructure; Microwave absorption; Electromagnetic interference shielding; Supercapacitance; Energy conversion
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Inspired by green vines in nature, a hierarchical structured nano-micro vine was constructed, which achieved excellent microwave absorption and efficient green electromagnetic interference (EMI) shielding. The study also proposed a credibility index for green EMI shielding. Additionally, considerable supercapacitance performance was obtained, and a microwave recovery device integrated with multiple functions was successfully constructed.
The rapid development of electronic technology has brought great convenience to human society, however, serious electromagnetic (EM) radiation pollution and energy problems are also coming to the fore. Effective addressing and conversing EM pollution is a crucial topic. Here, inspired by green vines in nature, a hierarchical structured nano-micro vine was constructed. Thanks to the synergistic enhancement among carbon nanotube stems, tungsten diselenide leaves and cobalt tetroxide chloroplasts, excellent microwave absorption with a reflection loss (RL) of up to-56.9 dB and effective absorption bandwidth (EAB) of 6.56 GHz was obtained. More meaningful, efficient green electromagnetic interference (EMI) shielding was achieved and a credibility index of green EMI shielding (cg) was proposed for the first time. In addition, considerable supercapacitance performance was obtained. Creatively, we constructed a microwave recovery device integrated multi-function. Harmful EM radiation is efficiently harvested and converted into useful electrical energy and stored. This work provides a pioneering strategy for designing EM functional materials and handling EM pollution.
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