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Exploiting Colloidal Metamaterials for Achieving Unnatural Optical Refractions

Authors
Huh, Ji-HyeokKim, KwangjinIm, EunjiLee, JaewonCho, YongDeokLee, Seungwoo
Issue Date
12월-2020
Publisher
WILEY-V C H VERLAG GMBH
Keywords
capacitive coupling; colloids; magnetism; metamaterials; self& #8208; assembly
Citation
ADVANCED MATERIALS, v.32, no.51
Indexed
SCIE
SCOPUS
Journal Title
ADVANCED MATERIALS
Volume
32
Number
51
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/51305
DOI
10.1002/adma.202001806
ISSN
0935-9648
Abstract
The scaling down of meta-atoms or metamolecules (collectively denoted as metaunits) is a long-lasting issue from the time when the concept of metamaterials was first suggested. According to the effective medium theory, which is the foundational concept of metamaterials, the structural sizes of meta-units should be much smaller than the working wavelengths (e.g., << 1/5 wavelength). At relatively low frequency regimes (e.g., microwave and terahertz), the conventional monolithic lithography can readily address the materialization of metamaterials. However, it is still challenging to fabricate optical metamaterials (metamaterials working at optical frequencies such as the visible and near-infrared regimes) through the lithographic approaches. This serves as the rationale for using colloidal self-assembly as a strategy for the realization of optical metamaterials. Colloidal self-assembly can address various critical issues associated with the materialization of optical metamaterials, such as achieving nanogaps over a large area, increasing true 3D structural complexities, and cost-effective processing, which all are difficult to attain through monolithic lithography. Nevertheless, colloidal self-assembly is still a toolset underutilized by optical engineers. Here, the design principle of the colloidally self-assembled optical metamaterials exhibiting unnatural refractions, the practical challenge of relevant experiments, and the future opportunities are critically reviewed.
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