A Full-Visible-Spectrum Invisibility Cloak for Mesoscopic Metal Wires.

Citation data:

Nano letters, ISSN: 1530-6992, Vol: 18, Issue: 6, Page: 3865-3872

Publication Year:
2018
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Repository URL:
http://scholarworks.unist.ac.kr/handle/201301/24227
PMID:
29767987
DOI:
10.1021/acs.nanolett.8b01157
Author(s):
Kim, Sang-Woo; An, Byeong Wan; Cho, Eunjin; Hyun, Byung Gwan; Moon, Yoon-Jong; Kim, Sun-Kyung; Park, Jang-Ung
Publisher(s):
American Chemical Society (ACS); AMER CHEMICAL SOC
Tags:
Chemical Engineering; Chemistry; Materials Science; Physics and Astronomy; Engineering; Ag fibers; Invisibility cloak; multipole cancelation; scattering suppression; transparent electrodes
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article description
Structured metals can sustain a very large scattering cross-section that is induced by localized surface plasmons, which often has an adverse effect on their use as transparent electrodes in displays, touch screens, and smart windows due to an issue of low clarity. Here, we report a broadband optical cloaking strategy for the network of mesoscopic metal wires with submicrometer to micrometer diameters, which is exploited for manufacturing and application of high-clarity metal-wires-based transparent electrodes. We prepare electrospun Ag wires with 300-1800 nm in diameter and perform a facile surface oxidation process to form Ag/AgO core/shell heterogeneous structures. The absorptive AgO shell, together with the coating of a dielectric cover, leads to the cancellation of electric multipole moments in Ag wires, thereby drastically suppressing plasmon-mediated scattering over the full visible spectrum and rendering Ag wires to be invisible. Simultaneously with the effect of invisibility, the transmittance of Ag/AgO wires is significantly improved compared to bare Ag wires, despite the formation of an absorptive AgO shell. As an application example, we demonstrate that these invisible Ag wires serve as a high-clarity, high-transmittance, and high-speed defroster for automotive windshields.