3D printing metamaterials for highly efficient electromagnetic wave absorption

Metamaterials (MMs) with artificial structures have extraordinary physical properties that cannot be found in traditional materials. MMs with electromagnetic wave absorption (MMAs) can be prepared through the structural design and arrangement of unit structures with special physical properties. Thes...

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Veröffentlicht in:	Science China materials 2023-04, Vol.66 (4), p.1283-1312
Hauptverfasser:	Zhou, Rui, Yu, Zhen, Wu, Zhenzhen, Qu, Chang, Song, Yan, Xing, Ruizhe, Kong, Jie
Format:	Artikel
Sprache:	eng
Schlagworte:	3-D printers Absorption Chemistry and Materials Science Chemistry/Food Science Electromagnetic radiation Manufacturing Materials Science Metamaterials Physical properties Production methods Reviews Structural design Three dimensional printing
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creator	Zhou, Rui Yu, Zhen Wu, Zhenzhen Qu, Chang Song, Yan Xing, Ruizhe Kong, Jie
description	Metamaterials (MMs) with artificial structures have extraordinary physical properties that cannot be found in traditional materials. MMs with electromagnetic wave absorption (MMAs) can be prepared through the structural design and arrangement of unit structures with special physical properties. These unit structures at the subwavelength scale are fundamental for MMAs to surpass the performance limits of bulk materials, so the matching of manufacturing processes is particularly important. The rapidly developing three-dimensional (3D) printing technology has shown great advantages and potential in manufacturing complex materials and structures, providing a simple, rapid, and efficient manufacturing method for researching and preparing MMAs. In this review, we introduce the concept and development of MMAs and focus on the research status of using 3D printing technology to manufacture MMAs. Furthermore, we briefly introduce their typical applications, discuss the inadequacies of the current development of MMs and the limitations of 3D printing technology in preparing MMAs, and propose the prospects for developing the combination of MMs and 3D printing.
doi_str_mv	10.1007/s40843-022-2352-4
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subjects	3-D printers Absorption Chemistry and Materials Science Chemistry/Food Science Electromagnetic radiation Manufacturing Materials Science Metamaterials Physical properties Production methods Reviews Structural design Three dimensional printing
title	3D printing metamaterials for highly efficient electromagnetic wave absorption
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