材料科学
超材料
光电子学
光子学
等离子体子
电介质
溅射沉积
制作
光子超材料
纳米技术
溅射
薄膜
医学
病理
替代医学
作者
Ruyi Zhang,Ting Lin,Shaoqin Peng,Jiachang Bi,Shunda Zhang,Guanhua Su,Jie Sun,Junhua Gao,Hongtao Cao,Qinghua Zhang,Lin Gu,Yanwei Cao
出处
期刊:Nano Letters
[American Chemical Society]
日期:2023-04-28
卷期号:23 (9): 3879-3886
被引量:19
标识
DOI:10.1021/acs.nanolett.3c00512
摘要
The fabrication of flexible single-crystalline plasmonic or photonic components in a scalable way is fundamentally important to flexible electronic and photonic devices with high speed, high energy efficiency, and high reliability. However, it remains a challenge. Here, we have successfully synthesized flexible single-crystalline optical hyperbolic metamaterials by directly depositing refractory nitride superlattices on flexible fluorophlogopite-mica substrates with magnetron sputtering. Interestingly, these flexible hyperbolic metamaterials show dual-band hyperbolic dispersion of dielectric constants with small dielectric losses and high figures of merit in the visible to near-infrared ranges. More importantly, the optical properties of these nitride-based flexible hyperbolic metamaterials show remarkable stability during 1000 °C heating or after being bent 1000 times. Therefore, the strategy developed in this work offers an easy and scalable route for fabricating flexible, high-performance, and refractory plasmonic or photonic components, which can significantly expand the applications of current electronic and photonic devices.
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