通过一维电极耦合到等离子体元表面的 hBN 封装石墨烯用于光探测应用

IF 3.7 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Christian Frydendahl, Sita Rama Krishna Chaitanya Indukuri, Taget Raghavendran Devidas, Zhengli Han, Noa Mazurski, Kenji Watanabe, Takashi Taniguchi, Hadar Steinberg, Uriel Levy
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引用次数: 0

摘要

在编号为 2300192 的文章中,Christian Frydendahl、Uriel Levy 及其合作者展示了一种新方法,即穿透六方氮化硼层使等离子体纳米结构与石墨烯产生原子边缘接触,从而保持封装的优势,同时使石墨烯的光学响应因纳米腔中等离子衰减产生的电荷转移而得到有力增强。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

hBN-Encapsulated Graphene Coupled to a Plasmonic Metasurface via 1D Electrodes for Photodetection Applications

hBN-Encapsulated Graphene Coupled to a Plasmonic Metasurface via 1D Electrodes for Photodetection Applications

In article number 2300192, Christian Frydendahl, Uriel Levy, and co-workers demonstrate a new approach where plasmonic nanostructures are pierced through the hexagonal boron nitride layers to make atomic edge contacts to the graphene, thus maintaining the advantages of encapsulation, while enabling strong enhancement of the optical response of graphene from charge transfer from plasmonic decay in the nanocavities.

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